CN219544273U - Screen printing assembly and glass screen printing device - Google Patents

Abstract

The utility model discloses a screen printing component and a glass screen printing device, which relate to the technical field of printing, and the technical scheme is that the screen printing component comprises a transmission mechanism, a screen printing device and a screen printing device, wherein the transmission mechanism comprises a supporting structure and a transmission component arranged on the supporting structure, and the transmission component can horizontally translate glass to be printed; the screen plate bracket is arranged on one side of the transmission mechanism, the lower part of the screen plate bracket is fixedly connected with the side part of the supporting structure, and the upper part of the screen plate bracket extends to the upper part of the transmission assembly; the clamp is used for clamping the screen plate; the connecting piece is arranged between the clamp and the screen plate bracket and is movably connected with the clamp. The utility model has the beneficial effects that by combining the device, the screen printing component can be added in the existing screen printing equipment, so that the screen can be added after one printing section, and different patterns are used for overprinting. In the process, glass is not required to be taken down, the screen plate to be used is only required to be placed on the clamp in the scheme according to the design requirement, and staff operate to smear the screen printing material.

Description

Screen printing assembly and glass screen printing device

Technical Field

The utility model relates to the technical field of printing, in particular to a screen printing component and a glass screen printing device.

Background

In the glass screen printing process, a plurality of patterns appear on one glass, and because the patterns have different colors, a plurality of screen plates (printing plates) are required to be manufactured for multicolor overprinting. This results in the need for frequent screen changes (printing plates) during processing to achieve the overprinting design effect.

The general process flow of the colored glaze is as follows: checking upper piece, cleaning, checking, printing, drying and checking lower piece. Because glass is heavy and fragile, the screen printing process is not suitable for frequent carrying, the existing screen printing process is one plate color, and a plurality of process batches are needed to finish plate color changing again. This mode of operation of changing the screen plate severely affects production efficiency, and frequent handling increases the likelihood of glass scoring, thereby affecting the quality of the glass product.

Disclosure of Invention

Aiming at one of the defects in the prior art, the utility model provides a screen printing component and a glass screen printing device, which solve the problem that the screen plate is required to be replaced when glass is subjected to screen printing in pattern overprinting operation.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a screen printing assembly, comprising,

the conveying mechanism comprises a supporting structure and a conveying assembly arranged on the supporting structure, and the conveying assembly can horizontally translate glass to be printed;

the screen plate bracket is arranged on one side of the transmission mechanism, the lower part of the screen plate bracket is fixedly connected with the side part of the supporting structure, and the upper part of the screen plate bracket extends to the upper part of the transmission assembly;

the clamp is used for clamping the screen plate;

the connecting piece is arranged between the clamp and the screen plate bracket and is movably connected with the clamp.

Preferably, the supporting structure is a frame structure, and a horizontal supporting frame is arranged on the upper side of the supporting structure;

the transmission assembly may comprise a plurality of transmission assemblies,

the rotating rods are connected with the support frame on the upper side of the support structure and are arranged in parallel;

and the rotating pieces are arranged on each rotating rod, and the first rotating direction of the rotating pieces is to rotate by taking the axis of the rotating rod as a shaft.

Preferably, the transmission assembly further comprises,

the rotating rollers are rotationally connected with the rotating members, and a plurality of rotating members are arranged on each rotating member; the rotating axis of the rotating roller is perpendicular to the projection of the axis of the rotating rod on the horizontal plane.

Preferably, the rotating rod is rotationally connected with the supporting structure, and the rotating piece is fixedly connected with the rotating rod;

the rotating piece comprises a supporting plate, the supporting plate is sleeved on the rotating rod, and a plurality of rotating rollers are respectively arranged on two sides of the supporting plate in a rotating mode;

the rotating rollers on each side of the supporting plate are uniformly distributed in an array manner by taking the central line of the supporting plate as an axis circumference, and the rotating rollers on two sides of the supporting plate are arranged in a staggered manner.

Preferably, the mesh plate support comprises,

the connecting frame is fixedly connected with the supporting structure;

the lower sliding rail is fixedly connected with the connecting frame and is positioned above the upper surface of the supporting structure;

the upper sliding rail is fixedly connected with the upper part of the connecting frame;

the adjusting guide rail is positioned between the lower slide rail and the upper slide rail and is in sliding connection with the lower slide rail;

the upper sliding rail and the lower sliding rail are parallel, and the direction of the upper sliding rail is perpendicular to the direction of the rotating rod; the adjusting guide rail is parallel to the rotating rod; one end of the adjusting guide rail is connected with the connecting piece.

Preferably, the screen support further comprises a positioning member group, the positioning member group comprises,

the first positioning piece is arranged between the lower sliding rail and the adjusting guide rail and used for fixing the position of the adjusting guide rail on the lower sliding rail;

the second locating piece is arranged between the upper sliding rail and the adjusting guide rail to form a suspension structure between the upper sliding rail and the adjusting guide rail.

Preferably, the clamp is of a structure, one open end of the clamp clamps the screen plate, and the closed end of the clamp is rotationally connected with the connecting rod group; the clamp is provided with a clamping structure for clamping the screen plate.

Preferably, the connector comprises a connector body, which comprises,

the guide rail sliding block is positioned in the adjusting guide rail and is in sliding connection with the adjusting guide rail, and a threaded hole is formed in the guide rail sliding block;

the connecting plate is fixedly provided with the connecting rod group and provided with a through hole corresponding to the threaded hole of the guide rail slide block;

the locking piece is connected, a screw is arranged at the lower side of the locking piece, and the screw penetrates through the connecting plate and is in threaded connection with the guide rail sliding block.

Preferably, the first positioning member includes,

the first sliding block is in sliding connection with the lower sliding rail, and a threaded hole is formed in the first sliding block;

the upper part of the first locking piece is a holding part which is convenient to screw, and a screw rod is fixedly arranged at the lower side of the holding part;

the lower part of the adjusting guide rail is provided with a through groove which is a long strip groove arranged along the length direction of the adjusting guide rail, and the screw rod of the first locking piece is connected with the first sliding block in a threaded manner after penetrating through the through groove.

Preferably, the second positioning member comprises,

the upper sliding block is in sliding connection with the upper sliding rail, and an upper screw rod is vertically and downwardly arranged on the lower side of the upper sliding block in an extending mode;

the lower sliding block is in sliding connection with the adjusting guide rail, and the upper side of the lower sliding block is vertically and upwardly extended and provided with a lower screw rod;

and the upper end and the lower end of the middle piece are respectively in threaded connection with the upper screw and the lower screw.

A glass screen printing device is provided with at least one screen printing component at one side of the discharge end of the printing component.

Compared with the prior art, the method has the following beneficial effects: by combining the device, the screen printing component can be added in the existing screen printing equipment, so that the screen printing component can be added after one-time printing, and different patterns are used for overprinting. In the process, glass is not required to be taken down, the screen plate to be used is only required to be placed on the clamp in the scheme according to the design requirement, and staff operate to smear the screen printing material. By the scheme, the problem that printing operation of multicolor patterns in a color glaze process in the traditional technology is time-consuming is solved, and production time and labor cost are doubled.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present utility model;

FIG. 2 is an enlarged view of part of A of FIG. 2;

FIG. 3 is an enlarged view of part of C of FIG. 2;

FIG. 4 is a schematic diagram of the overall structure of a second embodiment of the present utility model;

FIG. 5 is an enlarged view of part B of FIG. 4;

fig. 6 is a partial enlarged view of D of fig. 5.

In the figure:

1. a transmission mechanism; 11. a support structure; 12. a transmission assembly; 121. a rotating rod; 122. a rotating member; 123. a rotating roller; 2. a screen support; 21. a connecting frame; 22. a lower slide rail; 23. an upper slide rail; 24. adjusting the guide rail; 251. a first positioning member; 252. a second positioning member; 3. a clamp; 4. a connecting piece; 41. a connecting plate; 42. and the locking piece is connected.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides the following technical solutions:

a screen printing assembly comprises a conveying mechanism 1 for conveying glass to be printed, a screen support 2 for clamping a screen, and a clamp 3. The conveying mechanism 1 comprises a supporting structure 11 and a conveying assembly 12 arranged on the supporting structure 11, wherein the conveying assembly 12 can horizontally translate glass to be printed; the screen support 2 is arranged on one side of the transmission mechanism 1, the lower part of the screen support is fixedly connected with the side part of the supporting structure 11, and the upper part of the screen support extends to the upper part of the transmission assembly 12; the clamp 3 is connected with the screen plate bracket 2 through the connecting piece 4, and the screen plate is clamped on the clamp 3 during operation.

After the assembly is arranged at a printing section of screen printing, when glass is transferred to the transmission mechanism 1 after the glass is processed in the previous procedure, the transmission mechanism 1 can translate the glass in the horizontal direction, a worker can pull the glass to place the glass under the screen, and then the screen with the pattern is provided with corresponding printing materials. By adding the assembly, the printing device can be combined with different screen plates under the condition of not affecting the assembly of the printing device, so that the overprinting of patterns is realized.

On the basis of the above embodiment, the support structure 11 is a frame-like structure, the upper side of which is provided with a horizontal support frame. Referring to fig. 2, the transfer assembly 12 includes a plurality of rotating rods 121 rotatably disposed on a support frame at an upper side of the support structure 11, the rotating rods 121 being distributed in a linear array. Each rotating rod 121 is provided with a plurality of rotating members 122, and the first rotating direction of the rotating members 122 is to rotate by taking the axis of the rotating rod 121 as a shaft. Each rotating member 122 is rotatably connected to a plurality of rotating rollers 123, and the rotation axis of the rotating rollers 123 is perpendicular to the projection of the axis of the rotating rod 121 on the horizontal plane, and the rotation direction of the rotating rollers 123 forms a second rotation direction of the rotating members 122. The outer side of the rotating roller 123 is provided with a rubber layer to increase friction. The first rotation direction is the main direction of feeding and discharging of the glass, and the second rotation direction brought by rotation 123 is the pulling direction which is convenient for the staff to adjust the specific printing position of the glass. The rotating rods 121 are driven by a driving mechanism, the driving mechanism can be chain driven, pneumatic and the like, and the rotating rods 121 only need to rotate uniformly, and are convenient to start and stop, and the details are omitted.

On the basis of the above embodiment, the rotating rod 121 is rotatably connected with the supporting structure 11, and the rotating member 122 is fixedly connected with the rotating rod 121; the rotating piece 122 comprises a supporting plate, the supporting plate is sleeved on the rotating rod 121, and a plurality of rotating rollers 123 are respectively arranged on two sides of the supporting plate in a rotating mode; the rotating rollers 123 on each side of the supporting plate are uniformly distributed in an array manner by taking the central line of the supporting plate as an axis circumference, and the rotating rollers 123 on both sides of the supporting plate are arranged in a staggered manner. As shown in fig. 3, the rotating member 122 of the present structure is provided because it is required to satisfy the requirement that the operator can drag the glass in the horizontal direction, thereby satisfying the free movement of the glass in the horizontal direction, and not giving the operator the load of applying force to move the glass.

On the basis of the embodiment, the screen support 2 comprises a connecting frame 21 fixedly connected with the supporting structure 11, the connecting frame 21 is of a 7-shaped structure, a lower sliding rail 22 is fixedly connected to the connecting frame 21, and the lower sliding rail 22 is located above the upper surface of the supporting structure 11. The upper part of the connecting frame 21 is fixedly connected with an upper sliding rail 23; an adjusting guide rail 24 is arranged between the lower slide rail 22 and the upper slide rail 23, and the adjusting guide rail 24 is in sliding connection with the lower slide rail 22. Wherein, the upper slide rail 23 and the lower slide rail 22 are parallel, and the directions of the upper slide rail and the lower slide rail are perpendicular to the direction of the rotating rod 121; the adjusting guide rail 24 is parallel to the rotating rod 121; one end of the adjustment rail 24 is connected to the connector 4. The track grooves of the lower slide rail 22 and the upper slide rail 23, namely the adjusting guide rail 24, are of a convex structure. Because the clamp 4 is suspended above the transmission assembly 12 after clamping the screen, the clamp 4 needs to be fixed, and the movement of the glass is not hindered.

On the basis of the above embodiment, referring to fig. 4 to 6, the screen frame 2 further includes a set of positioning members including a first positioning member 251 and a second positioning member 252. Wherein, first locating piece 251 is disposed between lower slide rail 22 and adjusting rail 24, is used for fixing the position of adjusting rail 24 on lower slide rail 22. The second positioning member 252 is disposed between the upper rail 23 and the adjustment rail 24, forming a suspension structure between the upper rail 23 and the adjustment rail 24.

The first positioning member 251 includes a first slider slidably connected to the lower rail 22, and a threaded hole is formed in the first slider. The first locking piece is arranged corresponding to the threaded hole, the upper part of the first locking piece is a holding part which is convenient to screw, and a screw rod is fixedly arranged at the lower side of the holding part; the lower part of the adjusting guide rail 24 is provided with a through groove which is a long strip groove arranged along the length direction of the adjusting guide rail 24, and the screw rod of the first locking piece is connected with the first sliding block through threads after penetrating through the through groove. The positions of the adjustment rail 24 and the lower slide rail 22 can be locked by screwing the grip.

The second positioning member 252 includes an upper slider, a lower slider, and an intermediate member. The upper sliding block is in sliding connection with the upper sliding rail 23, and an upper screw rod is vertically and downwardly arranged on the lower side of the upper sliding block in an extending manner; the lower slide block is in sliding connection with the adjusting guide rail 24, and the upper side of the lower slide block is vertically and upwardly extended and provided with a lower screw rod; the upper end and the lower end of the middle piece are respectively in threaded connection with the upper screw rod and the lower screw rod. Since one end of the adjustment rail 24 is a suspended end and the end is to be suspended by the net plate, the second positioning member 252 plays a role of suspending the end of the adjustment rail 24, thereby ensuring safety in operation.

On the basis of the embodiment, the clamp 3 is of a structure, one open end of the clamp clamps the screen plate, and the closed end of the clamp is rotatably connected with the connecting rod group; the clamp 3 is provided with a clamping structure for clamping the screen plate. The clamping structure is a bolt in threaded connection with the transverse plate on the clamp 3 '' structure, and the upper end of the bolt is fixedly connected with the screwing cap. Because the weight of the screen plate is not large, the clamping structure can meet the requirement, and the bolts are extruded on the frame structure of the screen plate.

On the basis of the embodiment, the connecting piece 4 comprises a guide rail sliding block positioned in the adjusting guide rail 24, the guide rail sliding block is in sliding connection with the adjusting guide rail 24, and the guide rail sliding block is provided with a threaded hole; the connecting plate 41 is fixedly provided with a connecting rod group, and the connecting plate 41 is provided with a through hole corresponding to the threaded hole of the guide rail slide block; the connecting plate 41 and the rail slider are connected by a connecting lock 42. The lower side of the connecting locking piece 42 is provided with a screw rod which penetrates through the connecting plate 41 and is in threaded connection with the guide rail sliding block. The screw is divided into a threaded part and a pushing part, the threaded part corresponds to the threaded hole of the guide rail sliding block, the pushing part is positioned above the threaded part, and the outer diameter of the pushing part is larger than the outer diameter of the through hole on the connecting plate 41. The damping structure is arranged at the joint of the connecting rod group and the clamp 3, so that the clamp 3 can hover in the rotating process. When working, the operator only needs to stop the movement of the transmission assembly 12, then pull the glass to a proper position below the screen plate, place the screen plate on the surface of the glass for operation, push the screen plate up after the operation is finished, and start the transmission assembly 12.

On the basis of the above embodiment, the supporting structure 1 is further provided with a limiting component, the limiting component is composed of a limiting sliding rail and a limiting column, the limiting sliding rail is located between the rotating rods 121 and parallel to the rotating rods 121, the limiting column is slidably connected with the limiting sliding rail, and a locking screw is arranged between the limiting sliding rail and the limiting column. The limiting column is fixed at a proper position, so that the edge of the glass can be blocked when a worker pulls the glass. In addition, can be according to the glass different corresponding printing equipment's of feeding position, set up the spacing post that corresponds printing device feeding position, after the staff finishes the operation, promote glass until by spacing post block can, be convenient for the alignment of the follow-up feeding direction of glass.

On the basis of the above embodiment, the present embodiment also provides a glass screen printing device, and at least one screen printing component is arranged on the discharge end side of the printing component.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A screen printing assembly is characterized by comprising,

a transfer mechanism (1) comprising a support structure (11) and a transfer assembly (12) arranged on the support structure (11), the transfer assembly (12) being translatable in horizontal direction with respect to the glass to be printed;

the screen plate support (2) is arranged on one side of the transmission mechanism (1), the lower part of the screen plate support is fixedly connected with the side part of the supporting structure (11), and the upper part of the screen plate support extends to the upper part of the transmission assembly (12);

a clamp (3) for clamping the screen;

the connecting piece (4) is arranged between the clamp (3) and the screen plate bracket (2) and is movably connected with the clamp (3).

2. Screen printing assembly according to claim 1, characterized in that the upper side of the support structure (11) is provided with a horizontal support frame;

the transmission assembly (12) comprises a plurality of transmission modules,

the rotating rods (121) are connected with the support frame on the upper side of the support structure (11) and are arranged in parallel;

and a plurality of rotating pieces (122) are arranged on each rotating rod (121), and the first rotating direction of the rotating pieces (122) is to rotate by taking the axis of the rotating rod (121) as a shaft.

3. The screen printing assembly of claim 2, wherein the transport assembly (12) further comprises,

the rotating rollers (123) are rotationally connected with the rotating members (122), and a plurality of rotating members (122) are arranged on each rotating member (122); the axis of rotation of the rotating roller (123) is perpendicular to the projection of the axis of the rotating rod (121) on the horizontal plane.

4. A screen printing assembly according to claim 3, wherein the turning bar (121) is in rotational connection with the support structure (11), the turning member (122) being in fixed connection with the turning bar (121);

the rotating piece (122) comprises a supporting plate, the supporting plate is sleeved on the rotating rod (121), and a plurality of rotating rollers (123) are respectively arranged on two sides of the supporting plate in a rotating mode;

the rotating rollers (123) on each side of the supporting plate are uniformly distributed in a circumferential array by taking the central line of the supporting plate as an axis, and the rotating rollers (123) on both sides of the supporting plate are arranged in a staggered mode.

5. Screen printing assembly according to claim 2, wherein the screen support (2) comprises,

the connecting frame (21) is fixedly connected with the supporting structure (11);

the lower sliding rail (22) is fixedly connected with the connecting frame (21) and is positioned above the upper surface of the supporting structure (11);

an upper slide rail (23) fixedly connected with the upper part of the connecting frame (21);

the adjusting guide rail (24) is positioned between the lower slide rail (22) and the upper slide rail (23), and the adjusting guide rail (24) is in sliding connection with the lower slide rail (22);

the upper sliding rail (23) and the lower sliding rail (22) are parallel, and the direction of the upper sliding rail is perpendicular to the direction of the rotating rod (121); the adjusting guide rail (24) is parallel to the rotating rod (121); one end of the adjusting guide rail (24) is connected with the connecting piece (4).

6. The screen printing assembly of claim 5, wherein the screen support (2) further comprises a set of positioning elements, the set of positioning elements comprising,

the first positioning piece (251) is arranged between the lower sliding rail (22) and the adjusting guide rail (24) and is used for fixing the position of the adjusting guide rail (24) on the lower sliding rail (22);

the second positioning piece (252) is arranged between the upper sliding rail (23) and the adjusting guide rail (24) to form a suspension structure between the upper sliding rail (23) and the adjusting guide rail (24).

7. Screen printing assembly according to claim 5, characterized in that the clamp (3) is of "" shape, with one open end holding the screen and one closed end being in rotational connection with the set of connecting rods of the connecting piece (4); the clamp (3) is provided with a clamping structure for clamping the screen plate.

8. Screen printing assembly according to claim 7, characterized in that the connecting element (4) comprises,

the guide rail sliding block is positioned in the adjusting guide rail (24) and is in sliding connection with the adjusting guide rail (24), and a threaded hole is formed in the guide rail sliding block;

the connecting plate (41) is fixedly provided with the connecting rod group, and the connecting plate (41) is provided with a through hole corresponding to the threaded hole of the guide rail slide block;

and the lower side of the connecting locking piece (42) is provided with a screw rod which penetrates through the connecting plate (41) and is in threaded connection with the guide rail sliding block.

9. The screen printing assembly of claim 6, wherein the first positioning member (251) comprises,

the first sliding block is in sliding connection with the lower sliding rail (22), and a threaded hole is formed in the first sliding block;

the upper part of the first locking piece is a holding part which is convenient to screw, and a screw rod is fixedly arranged at the lower side of the holding part;

the lower part of the adjusting guide rail (24) is provided with a through groove which is a long groove arranged along the length direction of the adjusting guide rail (24), and the screw rod of the first locking piece is connected with the first sliding block through threads after penetrating through the through groove.

10. A glass screen printing device, characterized in that at least one screen printing module according to any one of claims 1 to 9 is arranged on the discharge end side of the printing module.