CN113651543A - Colored glaze glass processing device and use method thereof - Google Patents

Abstract

The invention provides a colored glaze glass processing device and a using method thereof, belonging to the technical field of building decoration materials. The colored glaze glass processing device comprises a printing assembly and a turnover assembly. The printing component comprises a glass ink-jet printer, a stand column, a supporting block, a first motor, a transmission roller, a plate type conveying belt, a first vertical plate, a first cylinder and a second vertical plate, when the printing component is used, the glass is enabled to be staggered with a third transverse plate under the action of a third cylinder, the third transverse plate is prevented from blocking the glass from turning, the rotation of an output shaft of the third motor is used for turning the glass, the glass is fixed between the second vertical plates according to the above opposite steps after the turning is completed, the glass can be printed and operated on the other side of the glass by the glass ink-jet printer and the first motor, the glass processing device can realize automatic turning operation on the glass, the labor capacity of operators is reduced, and the qualification rate of the colored glaze glass is improved.

Description

Colored glaze glass processing device and use method thereof

Technical Field

The invention relates to the field of building decoration materials, in particular to a colored glaze glass processing device and a using method thereof.

Background

The colored glaze glass is a wear-resistant, acid-and alkali-resistant decorative glass product obtained by printing inorganic glaze on the surface of glass, then carrying out drying, toughening or thermalization processing and permanently sintering the glaze on the surface of the glass. The product has high functionality and decorative effect. It has many different colors and patterns, such as stripes, meshes, electrical patterns, etc.

At present, current colored glaze glass processingequipment adopts the manual work to carry out the turn-over operation to glass, and when artifical turn-over had increased the amount of labour, still often rub the colored glaze on the face of accomplishing because the maloperation is printed to glass on, reduced colored glaze glass's qualification rate.

How to invent a colored glaze glass processing device to improve the problems becomes a problem to be solved urgently by the technical personnel in the field.

Disclosure of Invention

In order to make up for the defects, the invention provides a colored glaze glass processing device and a using method thereof, aiming at solving the problems that manual turnover operation is adopted to turn over glass, the manual turnover increases the labor amount, and meanwhile, the colored glaze on the printed surface of the glass is often rubbed off due to misoperation, and the qualification rate of the colored glaze glass is reduced.

The invention is realized by the following steps:

in a first aspect, the present disclosure provides a glazed glass processing device comprising a printing assembly and a flipping assembly.

The printing component comprises a glass ink-jet printer, an upright post, a supporting block, a first motor, a transmission roller, a plate-type conveying belt, a first vertical plate, a first air cylinder and a second vertical plate, the upper end of the upright post is fixed to the lower surface of the supporting block and the lower surface of the first motor respectively, one end of the transmission roller is rotatably arranged on the outer wall of the supporting block, the other end of the transmission roller and an output shaft of the first motor are fixed together, the plate-type conveying belt is rotatably arranged on the transmission roller, the first vertical plate is fixed to the upper surface of the plate-type conveying belt, the first air cylinder is fixed to the side surface of the first vertical plate, the second vertical plate is fixed to the end portion of a piston rod of the first air cylinder, and the plate-type conveying belt penetrates through the glass ink-jet printer.

The turnover component comprises a first transverse plate, a second cylinder, a second transverse plate, a second motor, a third transverse plate, a third motor, a third cylinder, a connecting rod, a sliding plate, a sliding block, a third vertical plate, a fourth cylinder and a fourth vertical plate, wherein the first transverse plate is fixed on the upper surface of the glass ink-jet printer, the second cylinder is fixed on the upper surface of the first transverse plate, the end part of a piston rod of the second cylinder is fixed on the upper surface of the second transverse plate, and the second motor is fixed on the upper surface of the second transverse plate.

The output shaft end of the second motor is fixed on the upper surface of the third transverse plate, the third cylinder and the sliding plate are fixed on the lower surface of the third transverse plate, the sliding block slides in the sliding plate, one end of the connecting rod is fixed on the piston rod end of the third cylinder, the other end of the connecting rod is fixed on the outer wall of the sliding block, the upper end of the third vertical plate is fixed on the lower surface of the sliding block, the fourth cylinder is fixed on the side surface of the third vertical plate, one of the piston rod end of the fourth cylinder is fixed on the outer wall of the third motor, and the different fourth vertical plates are respectively fixed on the output shaft end of the third motor and the other piston rod end of the fourth cylinder.

In one embodiment of the present invention, the printing assembly further comprises a base fixed on a lower surface of the glass inkjet printer.

In an embodiment of the present invention, the pillar includes a pillar body and a threaded pillar, the upper ends of the different pillar bodies are respectively fixed to the lower surface of the support block and the lower surface of the first motor, and the threaded pillar is threaded in the pillar body.

In one embodiment of the present invention, the first motor includes a first motor body and a protective housing, the protective housing is fixed to an upper surface of the pillar, and the first motor body is fixed within the protective housing.

In one embodiment of the present invention, the printing assembly further includes a rotating member fixed on a side surface of the supporting block, and a roller shaft of the driving roller is fixed in an inner ring of the rotating member.

In one embodiment of the invention, the printing assembly further comprises a rubber cushion fixed on a side surface of the second riser.

In an embodiment of the present invention, the turn-over assembly further includes a connecting lug plate fixed to an upper surface of the second cross plate and an end of the piston rod of the second cylinder.

In one embodiment of the present invention, the printing assembly further comprises a hand-held portion fixed to an outer wall of the glass inkjet printer.

In one embodiment of the invention, the connecting rod and the piston rod of the third cylinder are arranged perpendicular to each other.

In a second aspect, the present invention further provides a method for using the colored glaze glass processing device, which comprises the steps of:

s1, fixing the glass, starting a first motor and a first air cylinder, clamping the glass between second vertical plates by extending a piston rod of the first air cylinder, enabling the upper surface of the glass to be higher than the upper end of the second vertical plates, driving a driving roller to rotate by rotation of an output shaft of the first motor, driving a plate type conveying belt to rotate by the driving roller, and conveying the glass to the position below a printing head of the glass ink-jet printer by the plate type conveying belt;

s2, carrying out ink-jet printing on the glass, starting a glass ink-jet printer, carrying out ink-jet printing operation on the glass by the glass ink-jet printer, and after the glass is printed, controlling the output shaft of the first motor to rotate reversely to enable the glass to return to the initial position;

s3, flanging the glass, starting a second cylinder, a second motor, a third cylinder and a fourth cylinder, wherein a piston rod of the second cylinder stretches to drive a fourth vertical plate to move up and down, an output shaft of the second motor rotates to drive a third transverse plate to rotate, a piston rod of the third cylinder stretches to drive the fourth vertical plate to move longitudinally, a piston rod of the fourth cylinder stretches to drive the fourth vertical plate to move transversely, an output shaft of the third motor rotates to drive the fourth vertical plate to rotate, and the flanging operation on the glass is realized under the combined action of the second cylinder, the second motor, the third cylinder and the fourth cylinder;

and S4, printing the other surface of the glass, fixing the turned glass between the second vertical plates again according to the reverse steps, and starting the glass ink-jet printer and the first motor to print the other surface of the glass.

The invention has the beneficial effects that: when the device is used, glass is placed between the second vertical plates, the second vertical plates are driven by the extension of the piston rods of the first air cylinders to extrude the glass, the glass is fixed between the second vertical plates, the upper surface of the glass is higher than the upper ends of the second vertical plates, the plate type conveying belt is driven by the rotation of the output shafts of the first motors to rotate, the glass is conveyed to the lower portion of the printing head of the glass ink-jet printer by the plate type conveying belt, the glass is printed with colored glaze by ink-jet under the combined action of the first motors and the glass ink-jet printer, after the glass is printed, the output shafts of the first motors are controlled to rotate reversely, the glass is moved to the initial position, the fourth vertical plates are driven by the extension of the piston rods of the second air cylinders to move up and down, the third transverse plates are driven by the rotation of the output shafts of the second motors to rotate, the extension and contraction of the piston rod of the third cylinder drives the fourth vertical plate to realize longitudinal movement, the extension and contraction of the piston rod of the fourth cylinder drives the fourth vertical plate to realize transverse movement, under the combined action of the second cylinder, the second motor and the fourth cylinder, the fourth vertical plate clamps the glass, the piston rod of the first cylinder is controlled to retract, so that the second vertical plate is separated from the outer wall of the glass, under the action of the third cylinder, the glass is staggered with the third transverse plate to prevent the third transverse plate from blocking the glass from turning over, the rotation of the output shaft of the third motor carries out the turning operation on the glass, the glass is fixed between the second vertical plates again according to the reverse steps after the turning is finished, namely, the glass ink-jet printer and the first motor can be used for printing the other side of the glass, the glass processing device can realize automatic turnover operation on glass, reduce the labor capacity of operators and improve the qualification rate of the colored glaze glass.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a colored glazed glass processing device according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a glazed glass processing device according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a printing assembly according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of a turn-over assembly according to an embodiment of the present invention;

fig. 5 is an enlarged view of the area a in fig. 4 according to an embodiment of the present invention.

In the figure: 100-a printing assembly; 110-glass inkjet printer; 120-a base; 130-a column; 131-a column body; 132-a threaded post; 140-a support block; 150-a first motor; 151-a first motor body; 152-a protective housing; 160-a rotating member; 170-driving roller; 180-plate conveyor belt; 190-a first riser; 191-a first cylinder; 192-a second riser; 193-rubber cushioning; 194-a handpiece; 200-a turn-over assembly; 210-a first cross plate; 220-a second cylinder; 230-a second transverse plate; 240-a second motor; 250-a third transverse plate; 260-a third motor; 270-a third cylinder; 280-a connecting rod; 290-a sled; 291-a slide block; 292-a third riser; 293-fourth cylinder; 294-a fourth riser; 295-connecting ear plates.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Examples

Referring to fig. 1-5, the present invention provides a technical solution: a glazed glass processing apparatus includes a printing assembly 100 and a flipping assembly 200. The turnover component 200 is fixed on the printing component 100, and the glass processing device can realize automatic turnover operation on glass, thereby reducing the labor capacity of operators and improving the qualification rate of the colored glaze glass.

Referring to fig. 1 to 3, the printing assembly 100 includes a glass inkjet printer 110, a stand column 130, a support block 140, a first motor 150, a driving roller 170, a slat type conveyor 180, a first vertical plate 190, a first air cylinder 191 and a second vertical plate 192, upper ends of different stand columns 130 are respectively fixed on a lower surface of the support block 140 and a lower surface of the first motor 150 by bolts, the stand column 130 includes a stand column body 131 and a threaded column 132, upper ends of different stand column bodies 131 are respectively fixed on a lower surface of the support block 140 and a lower surface of the first motor 150 by bolts, the threaded column 132 is threaded in the stand column body 131, the threaded column 132 enables the slat type conveyor 180 to adapt to uneven ground, one end of the driving roller 170 is rotatably disposed on an outer wall of the support block 140, the printing assembly 100 further includes a rotating member 160, the rotating member 160 is fixed on a side surface of the support block 140 by bolts, the roller keys of the driving roller 170 are engaged in the inner ring of the rotational member 160, and the rotational member 160 makes the driving roller 170 rotate more smoothly, and the rotational member 160 in this embodiment is a bearing.

The other end of driving roller 170 and the output shaft of first motor 150 are fixed together through the shaft coupling, first motor 150 includes first motor body 151 and protective housing 152, protective housing 152 passes through the bolt fastening on the upper surface of stand 130, first motor body 151 passes through the bolt fastening in protective housing 152, protective housing 152 protects first motor body 151 against dust erosion, slat conveyor 180 rotates and sets up on driving roller 170, first riser 190 passes through the bolt fastening on slat conveyor 180's upper surface, first cylinder 191 passes through the bolt fastening on the side surface of first riser 190, second riser 192 passes through the bolt fastening at the piston rod end of first cylinder 191, printing component 100 still includes rubber cushion 193, rubber cushion 193 welds on the side surface of second riser 192, the edge of rubber cushion 193 protection glass can not extruded breakage.

The plate-type conveyer belt 180 penetrates through the glass inkjet printer 110, the printing assembly 100 further comprises a base 120, the base 120 is fixed on the lower surface of the glass inkjet printer 110 through bolts, the base 120 enables the lower surface of the glass inkjet printer 110 to be away from the ground, stains on the ground are effectively prevented from corroding the lower surface of the glass inkjet printer 110, the printing assembly 100 further comprises a handheld portion 194, the handheld portion 194 is fixed on the outer wall of the glass inkjet printer 110 through bolts, the handheld portion 194 is convenient to carry the glass inkjet printer 110, and the handheld portion 194 in the embodiment is a handle.

Referring to fig. 2, 4 and 5, the turn-over assembly 200 includes a first horizontal plate 210, a second cylinder 220, a second horizontal plate 230, a second motor 240, a third horizontal plate 250 and a third motor 260, the turnover assembly 200 further comprises a connecting lug plate 295, the connecting lug plate 295 is fixed on the upper surface of the second transverse plate 230 and the end of the piston rod of the second air cylinder 220 through bolts, the connecting lug plate 295 is fixed on the piston rod of the second transverse plate 230 and the end of the piston rod of the second air cylinder 220 through bolts, the connecting lug plate 295 is convenient for installing and fixing the second transverse plate 230 on the piston rod of the second air cylinder 220, and the second motor 240 is fixed on the upper surface of the second transverse plate 230 through bolts.

The end of the output shaft of the second motor 240 is fixed on the upper surface of the third cross plate 250 by bolts, the third cylinder 270 and the sliding plate 290 are fixed on the lower surface of the third cross plate 250 by bolts, the slider 291 slides in the sliding plate 290, one end of the connecting rod 280 is fixed on the end of the piston rod of the third cylinder 270 by bolts, the other end of the connecting rod 280 is fixed on the outer wall of the slider 291 by bolts, the connecting rod 280 and the piston rod of the third cylinder 270 are arranged perpendicular to each other, so that the slider 291 moves in the sliding plate 290, the upper end of the third vertical plate 292 is fixed on the lower surface of the slider 291 by bolts, the fourth cylinder 293 is fixed on the side surface of the third vertical plate 292 by bolts, the piston rod end of one of the fourth cylinders 293 is fixed to the outer wall of the third motor 260 by bolts, and different fourth risers 294 are respectively fixed to the output shaft end of the third motor 260 and the piston rod end of the other fourth cylinder 293 by bolts.

Specifically, the invention also provides a use method of the colored glaze glass processing device, which comprises the steps of:

s1, fixing the glass, starting the first motor 150 and the first air cylinder 191, clamping the glass between the second vertical plates 192 by extending piston rods of the first air cylinders 191, enabling the upper surfaces of the glass to be higher than the upper ends of the second vertical plates 192, driving the driving rollers 170 to rotate by rotation of output shafts of the first motor 150, driving the plate type conveying belts 180 to rotate by the driving rollers 170, and conveying the glass to the lower parts of printing heads of the glass ink-jet printer 110 by the plate type conveying belts 180;

s2, carrying out ink-jet printing on the glass, starting the glass ink-jet printer 110, carrying out ink-jet printing operation on the glass by the glass ink-jet printer 110, and after the glass is printed, controlling the output shaft of the first motor 150 to rotate reversely to enable the glass to return to the initial position;

s3, flanging the glass, starting the second air cylinder 220, the second motor 240, the third motor 260, the third air cylinder 270 and the fourth air cylinder 293, enabling a piston rod of the second air cylinder 220 to stretch and retract to drive the fourth vertical plate 294 to move up and down, enabling an output shaft of the second motor 240 to rotate to drive the third transverse plate 250 to rotate, enabling a piston rod of the third air cylinder 270 to extend to drive the fourth vertical plate 294 to move longitudinally, enabling a piston rod of the fourth air cylinder 293 to stretch and retract to drive the fourth vertical plate 294 to move transversely, enabling an output shaft of the third motor 260 to rotate to drive the fourth vertical plate 294 to rotate, and enabling the glass to be subjected to flanging operation under the combined action of the second air cylinder 220, the second motor 240, the third motor 260, the third air cylinder 270 and the fourth air cylinder 293;

and S4, printing the other surface of the glass, fixing the turned glass between the second vertical plates 192 again according to the reverse steps, and starting the glass ink-jet printer 110 and the first motor 150 to print the other surface of the glass.

Specifically, the working principle of the colored glaze glass processing device is as follows: when the glass printing machine is used, the first air cylinder 191 is started, glass is placed between the second vertical plates 192, the extending of a piston rod of the first air cylinder 191 drives the second vertical plates 192 to extrude the glass, the glass is fixed between the second vertical plates 192, the upper surfaces of the glass are higher than the upper ends of the second vertical plates 192, the first motor 150 is started, the rotation of an output shaft of the first motor 150 drives the plate type conveyer belt 180 to rotate, the plate type conveyer belt 180 conveys the glass to the lower portion of a printing head on the glass ink-jet printer 110, under the combined action of the first motor 150 and the glass ink-jet printer 110, the glass is printed with colored glaze by ink-jet, after the glass is printed, the output shaft of the first motor 150 is controlled to rotate reversely, the glass is moved to the initial position, the second air cylinder 220, the second motor 240, the third motor 260, the third air cylinder 270 and the fourth air cylinder 293 are started, the expansion of a piston rod of the second air cylinder 220 drives the fourth vertical plate 294 to move up and down, the rotation of the output shaft of the second motor 240 drives the third transverse plate 250 to rotate, the extension and retraction of the piston rod of the third cylinder 270 drives the fourth vertical plate 294 to move longitudinally, the extension and retraction of the piston rod of the fourth cylinder 293 drives the fourth vertical plate 294 to move transversely, under the combined action of the second cylinder 220, the second motor 240 and the fourth cylinder 293, the fourth vertical plate 294 clamps the glass, the piston rod of the first cylinder 191 is controlled to retract, the second vertical plate 192 is separated from the outer wall of the glass, the glass is staggered with the third transverse plate 250 under the action of the third cylinder 270, the glass is prevented from being blocked by the third transverse plate 250 from turning over, the rotation of the output shaft of the third motor 260 carries out the turning-over operation on the glass, the glass is fixed between the second vertical plates 192 again according to the reverse steps after the turning-over operation is finished, namely, the other side of the glass can be printed by the glass ink-jet printer 110 and the first motor 150, the glass processing device can realize automatic turnover operation on glass, reduce the labor capacity of operators and improve the qualification rate of the colored glaze glass.

It should be noted that the specific model specifications of the glass inkjet printer 110, the first motor 150, the first air cylinder 191, the second air cylinder 220, the second motor 240, the third motor 260, the third air cylinder 270 and the fourth air cylinder 293 need to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art in the field, and therefore details are not described again.

The power supply and the principle of the glass inkjet printer 110, the first motor 150, the first cylinder 191, the second cylinder 220, the second motor 240, the third motor 260, the third cylinder 270 and the fourth cylinder 293 will be clear to those skilled in the art and will not be described in detail herein.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by 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 protection scope of the present invention.

Claims (10)

1. A colored glaze glass processing device is characterized by comprising

The printing assembly (100) comprises a glass ink-jet printer (110), an upright column (130), a supporting block (140), a first motor (150), a transmission roller (170), a plate-type conveying belt (180), a first vertical plate (190), a first air cylinder (191) and a second vertical plate (192), wherein the upper ends of the different upright columns (130) are respectively fixed on the lower surface of the supporting block (140) and the lower surface of the first motor (150), one end of the transmission roller (170) is rotatably arranged on the outer wall of the supporting block (140), the other end of the transmission roller (170) is fixed with an output shaft of the first motor (150), the plate-type conveying belt (180) is rotatably arranged on the transmission roller (170), the first vertical plate (190) is fixed on the upper surface of the plate-type conveying belt (180), and the first air cylinder (191) is fixed on the side surface of the first vertical plate (190), the second vertical plate (192) is fixed at the end of a piston rod of the first air cylinder (191), and the plate-type conveying belt (180) penetrates through the glass ink-jet printer (110);

the turnover assembly (200) comprises a first transverse plate (210), a second air cylinder (220), a second transverse plate (230), a second motor (240), a third transverse plate (250), a third motor (260), a third air cylinder (270), a connecting rod (280), a sliding plate (290), a slider (291), a third vertical plate (292), a fourth air cylinder (293) and a fourth vertical plate (294), wherein the first transverse plate (210) is fixed on the upper surface of the glass inkjet printer (110), the second air cylinder (220) is fixed on the upper surface of the first transverse plate (210), the end part of a piston rod of the second air cylinder (220) is fixed on the upper surface of the second transverse plate (230), and the second motor (240) is fixed on the upper surface of the second transverse plate (230);

the end part of the output shaft of the second motor (240) is fixed on the upper surface of the third transverse plate (250), the third cylinder (270) and the sliding plate (290) are both fixed on the lower surface of the third cross plate (250), the sliding block (291) slides in the sliding plate (290), one end of the connecting rod (280) is fixed at the end of the piston rod of the third cylinder (270), the other end of the connecting rod (280) is fixed on the outer wall of the sliding block (291), the upper end of the third vertical plate (292) is fixed on the lower surface of the sliding block (291), the fourth cylinder (293) is fixed to a side surface of the third vertical plate (292), the end of the piston rod of one of the fourth cylinders (293) is fixed on the outer wall of the third motor (260), and different fourth risers (294) are respectively fixed on the end of the output shaft of the third motor (260) and the end of the piston rod of the other fourth cylinder (293).

2. A glazed glass processing unit according to claim 1, wherein the printing assembly (100) further comprises a base (120), the base (120) being fixed to the lower surface of the glass inkjet printer (110).

3. A stained glass processing device according to claim 1, characterized in that said upright column (130) comprises an upright column body (131) and a threaded column (132), the upper ends of different said upright column bodies (131) being fixed respectively to the lower surface of said supporting block (140) and to the lower surface of said first motor (150), said threaded column (132) being threaded inside said upright column body (131).

4. A stained glass processing device according to claim 1, characterized in that said first motor (150) comprises a first motor body (151) and a protective casing (152), said protective casing (152) being fixed on the upper surface of said upright (130), said first motor body (151) being fixed inside said protective casing (152).

5. A glazed glass processing unit according to claim 1, wherein the printing unit (100) further comprises a rotating member (160), the rotating member (160) being fixed to a side surface of the support block (140), the roller shaft of the driving roller (170) being fixed in the inner ring of the rotating member (160).

6. A glazed glass processing unit according to claim 1, wherein the printing assembly (100) further comprises a rubber cushion (193), the rubber cushion (193) being secured to a side surface of the second riser (192).

7. A stained glass processing device according to claim 1, characterized in that said turn-over assembly (200) further comprises a connecting ear plate (295), said connecting ear plate (295) is fixed on the upper surface of said second horizontal plate (230) and the end of the piston rod of said second cylinder (220).

8. A glazed glass processing unit according to claim 1, wherein the printing assembly (100) further comprises a hand-held portion (194), the hand-held portion (194) being secured to an outer wall of the glass inkjet printer (110).

9. A glazed glass processing unit according to claim 1, wherein the connecting rod (280) and the piston rod of the third cylinder (270) are arranged perpendicular to each other.

10. The use method of the colored glaze glass processing device is characterized by comprising the following steps

A stained glass processing apparatus according to any one of claims 1 to 9, and the steps of:

s1, fixing the glass, starting a first motor (150) and a first air cylinder (191), clamping the glass between second vertical plates (192) by extending out of piston rods of the first air cylinder (191), enabling the upper surface of the glass to be higher than the upper ends of the second vertical plates (192), driving rollers (170) to rotate driven by rotation of output shafts of the first motor (150), driving the plate type conveying belt (180) to rotate driven by the driving rollers (170), and conveying the glass to the position below a printing head of the glass ink-jet printer (110) by the plate type conveying belt (180);

s2, carrying out ink jet printing on the glass, starting the glass ink jet printer (110), carrying out ink jet printing operation on the glass by the glass ink jet printer (110), and after the glass is printed, controlling the output shaft of the first motor (150) to rotate reversely to enable the glass to return to the initial position;

s3, flanging is performed on the glass, a second air cylinder (220), a second motor (240), a third motor (260), a third air cylinder (270) and a fourth air cylinder (293) are started, the telescopic action of a piston rod of the second air cylinder (220) drives a fourth vertical plate (294) to move up and down, the rotation of an output shaft of the second motor (240) drives a third transverse plate (250) to rotate, the extension of a piston rod of the third air cylinder (270) drives the fourth vertical plate (294) to move longitudinally, the telescopic action of a piston rod of the fourth air cylinder (293) drives the fourth vertical plate (294) to move transversely, the rotation of an output shaft of the third motor (260) drives the fourth vertical plate (294) to rotate, and the flanging operation on the glass is realized under the combined action of the second air cylinder (220), the second motor (240), the third motor (260), the third air cylinder (270) and the fourth air cylinder (293);

and S4, printing the other surface of the glass, fixing the turned glass between the second vertical plates (192) again according to the reverse steps, and starting the glass ink-jet printer (110) and the first motor (150) to realize the printing operation on the other surface of the glass.

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