CN215473765U - Ultra-thin photovoltaic glass's full-automatic silk screen printing machine - Google Patents

Abstract

The utility model discloses a full-automatic screen printer for ultrathin photovoltaic glass, which comprises: the first supporting seat is connected to the roller conveyor and arranged below the roller; a driving piece connected to the first supporting seat; the two linear guide rails are connected to the roller conveyor, symmetrically arranged on two sides of the driving piece and arranged below the roller; the tray is connected to the driving piece and connected with the linear guide rail, the ultrathin photovoltaic glass is jacked up or put down along the sliding position of the linear guide rail after the driven piece is linked, and the top of the tray is lower than that of the roller after the ultrathin photovoltaic glass is put down by the tray; therefore, the technical problems of poor synchronism and non-uniform silk screen printing are solved.

Description

Ultra-thin photovoltaic glass's full-automatic silk screen printing machine

Technical Field

The utility model relates to the technical field of screen printing machines, in particular to a full-automatic screen printing machine for ultrathin photovoltaic glass.

Background

In order to improve the generated energy, a layer of high-reflection glaze can be printed on the ultrathin photovoltaic glass, and therefore a silk screen printing machine can be used, for example, the Chinese patent application number is 201821016002.X, and the patent subject name is the prior art of the glass silk screen printing machine for producing the flat-panel display color crystal toughened backboard glass.

Disclosure of Invention

Aiming at the defects in the related art, the full-automatic screen printing machine for the ultrathin photovoltaic glass is provided to solve the technical problems of poor synchronism and non-uniform screen printing in the related art.

The technical scheme adopted for realizing the purpose is as follows: the utility model provides an ultra-thin photovoltaic glass's full-automatic silk screen printing machine, includes:

the first supporting seat is connected to the roller conveyor and arranged below the roller;

the driving piece is connected to the first supporting seat;

the two linear guide rails are connected to the roller conveyor, symmetrically arranged on two sides of the driving piece and arranged below the roller;

and the tray is connected to the driving piece, is connected with the linear guide rail, is linked by the driving piece, jacks up or puts down the ultrathin photovoltaic glass along the sliding position of the linear guide rail, and is lower than the top of the roller after the ultrathin photovoltaic glass is put down.

Further: the first supporting seat is a flat plate.

Further: the driving piece is an oil cylinder or an air cylinder.

Further: the tray includes: the second supporting seat is of a cuboid structure and is connected with the driving piece; the four supporting columns are connected to four corners of the second supporting seat; and the four suckers are respectively connected with the supporting columns in a one-to-one manner and are used for being in direct contact with the ultrathin photovoltaic glass.

Further: the length dimension A of the tray is 1/3 of the length dimension of the ultra-thin photovoltaic glass.

By adopting the technical scheme, the method has the following beneficial effects: compared with the prior art, the full-automatic screen printing machine for the ultrathin photovoltaic glass is provided with a first supporting seat which is connected to a roller conveyor to form a stable supporting structure; the first supporting seat is connected with a driving piece; the roller conveyor is connected with a linear guide rail; the tray is connected with the driving piece and the linear guide rail; the driving piece acts to link the sliding position of the tray along the linear guide rail, the ultrathin photovoltaic glass is jacked up or put down, the synchronism is relatively good, and the silk-screen effect is guaranteed; therefore, the technical problems of poor synchronism and uneven silk screen printing are solved, the technical effects of relatively good synchronism and relatively even silk screen printing are achieved, and the method has practicability.

Drawings

FIG. 1 is a schematic view of a three-dimensional final assembly structure;

FIG. 2 is a schematic three-dimensional structure of FIG. 1 with the roller conveyor removed;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a schematic view of a three-dimensional final assembly structure of the ultra-thin photovoltaic glass after being jacked up;

in the figure: 10. the photovoltaic glass manufacturing device comprises a first supporting seat, a driving piece 20, a linear guide rail 30, a tray 40, a second supporting seat 41, a supporting column 42, a sucking disc 43, a roller conveyor 100, a roller 101 and ultrathin photovoltaic glass 200.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, not all of the embodiments;

a full-automatic screen printer for ultrathin photovoltaic glass solves the technical problems of poor synchronism and uneven screen printing in the related technology; the screen printing machine can be manufactured and used, and achieves the positive effects of relatively good synchronism and relatively uniform screen printing; the general idea is as follows:

one embodiment is as follows:

see fig. 1, 2, 3, 4; the utility model provides an ultra-thin photovoltaic glass's full-automatic silk screen printing machine, includes:

a first supporting seat 10 connected to the roller conveyor 100 and arranged below the roller 101;

a driving member 20 connected to the first supporting seat 10;

two linear guide rails 30 connected to the roller conveyor 100, symmetrically arranged at two sides of the driving member 20, and arranged below the roller 101;

the tray 40 is connected to the driving part 20, is connected with the linear guide rail 30, is linked by the driving part 20, and then slides along the linear guide rail 30 to jack up or put down the ultrathin photovoltaic glass 200, and after the tray 40 puts down the ultrathin photovoltaic glass 200, the top of the tray 40 is lower than that of the roller 101;

specifically, in the implementation, the first supporting seat 10 is arranged and connected to the roller conveyor 100 to form a stable supporting structure; the first supporting seat 10 is connected with a driving part 20; the roller conveyor 100 is connected with a linear guide rail 30; the tray 40 is connected with the driving member 20 and the linear guide 30; the driving part 20 acts to link the sliding position of the tray 40 along the linear guide rail 30 to jack up or put down the ultrathin photovoltaic glass 200, so that the synchronism is relatively good, and the silk-screen effect is ensured;

in another embodiment:

see fig. 1, 2, 3, 4; in implementation, the first supporting seat 10 is a flat plate, and is welded with the roller conveyor 100 to form a stable supporting structure;

in another embodiment:

see fig. 1, 2, 3, 4; in implementation, the driving member 20 is an oil cylinder or an air cylinder, and is a common structure in the prior art, and a bolt is inserted between the profile and the first supporting seat 10 to form a driving force;

the linear guide rail 30 is a common structure in the prior art, and is connected with the roller conveyor 100 through bolts to form linear guide, so that the tray 40 can move smoothly, and the tray 40 can stably contact with the ultrathin photovoltaic glass 200 to support the ultrathin photovoltaic glass 200;

those skilled in the art, having the benefit of this disclosure, will be able to directly and unambiguously know how to arrange the drive member 20 and the linear guide 30 without the inventive effort and undue experimentation;

in another embodiment:

see fig. 1, 2, 3, 4; in practice, the tray 40 comprises: a second supporting seat 41, which is a rectangular parallelepiped structure and is connected to the driving member 20; four supporting columns 42 connected to four corners of the second supporting seat 41; and four suction cups 43, respectively connected to the supporting columns 42 one-to-one, for directly contacting the ultra-thin photovoltaic glass 200; the second support seat 41 has a rectangular plate structure, and is connected with the telescopic shaft on the driving element 20 by welding or penetrating a screw; the supporting column 42 is a section of a circular shaft, the lower end of the supporting column is welded with the second supporting seat 41, and the upper end of the supporting column is provided with a threaded blind hole; the sucker 43 is made of plastic and is in threaded connection with the threaded blind hole, so that the installation and the disassembly are convenient, the ultrathin photovoltaic glass 200 can be well supported, the ultrathin photovoltaic glass 200 is prevented from sliding off, and the ultrathin photovoltaic glass 200 cannot be damaged;

the length dimension a of the tray 40 is 1/3 of the length dimension of the ultra-thin photovoltaic glass 200, and has enough contact area with the ultra-thin photovoltaic glass 200, so that the ultra-thin photovoltaic glass 200 is horizontally supported and the normal moving position of the ultra-thin photovoltaic glass 200 along the roller conveyor 100 is not affected;

in another embodiment:

see fig. 1, 4; in practice, the roller conveyor 100 and the roller 101 are common structures in the prior art; the ultrathin photovoltaic glass 200 is of a cuboid plate-shaped structure; the utility model is not the point of the utility model, but is only for better describing the utility model, so as to facilitate understanding of the technical scheme of the utility model, and after seeing the disclosure, a person of ordinary skill in the art can directly and unambiguously know how to set up the utility model without paying creative labor and without undue experiment;

the working principle is as follows: the driving part 20 acts to link the sliding position of the tray 40 along the linear guide rail 30 to jack up or put down the ultrathin photovoltaic glass 200, so that the synchronism is relatively good, and the silk-screen effect is ensured;

in the description, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on the positional relationships illustrated in the drawings, and are only for convenience of description or simplicity of description, but do not indicate specific orientations that are necessary; the operation process described in the embodiment is not an absolute use step, and corresponding adjustment can be made during actual use;

unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art; the use of "first," "second," and the like in the description and in the claims does not denote any order, quantity, or importance, but rather the terms "a" and "an" and the like are used to distinguish one element from another, and likewise, are not intended to denote an absolute limitation of quantity, but rather denote the presence of at least one, as may be determined by the context of the embodiment;

the above description is only for the preferred embodiment, but the scope of protection is not limited thereto, and any person skilled in the art should be covered by the protection scope, which is equivalent to or changed from the technical solution and the utility model concept disclosed in the present disclosure.

Claims (5)

1. The utility model provides an ultra-thin photovoltaic glass's full-automatic silk screen printing machine which characterized in that includes:

the first supporting seat (10) is connected to the roller conveyor (100) and arranged below the roller (101);

a driving piece (20) connected to the first supporting seat (10);

the two linear guide rails (30) are connected to the roller conveyor (100), symmetrically arranged on two sides of the driving piece (20) and arranged below the roller (101);

and the tray (40) is connected to the driving piece (20), is connected to the linear guide (30), and is linked by the driving piece (20) and then moves along the linear guide (30) to slide, so as to jack up or put down the ultrathin photovoltaic glass (200), and after the tray (40) is put down the ultrathin photovoltaic glass (200), the top of the tray (40) is lower than that of the roller (101).

2. The full-automatic screen printing machine for ultrathin photovoltaic glass as claimed in claim 1, characterized in that: the first supporting seat (10) is a flat plate.

3. The full-automatic screen printing machine for ultrathin photovoltaic glass as claimed in claim 1, characterized in that: the driving part (20) is an oil cylinder or an air cylinder.

4. The full-automatic screen printing machine for ultrathin photovoltaic glass as claimed in claim 1, characterized in that: the tray (40) comprises: the second supporting seat (41) is of a cuboid structure and is connected with the driving piece (20); four supporting columns (42) connected to four corners of the second supporting seat (41); and four suction cups (43) respectively connected with the support columns (42) in a one-to-one manner and used for directly contacting the ultrathin photovoltaic glass (200).

5. The full-automatic screen printing machine for ultrathin photovoltaic glass as claimed in claim 1, characterized in that: the tray (40) has a length dimension A that is 1/3 of the length dimension of the ultra-thin photovoltaic glass (200).

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