CN111673573A - Glass edge printing ink trimmer - Google Patents

Abstract

The application discloses a glass edge ink trimmer, which belongs to the technical field of glass manufacturing and comprises a position adjusting mechanism, a first trimming mechanism, a turnover mechanism and a second trimming mechanism, when the glass panel is polished and de-inked, the position adjusting mechanism firstly positions the glass panel and fixes the direction of the glass panel, then the glass panel is sent into a first trimming mechanism, the first trimming mechanism polishes and degreases the two opposite edges of the glass panel, then the turnover mechanism turns over the glass panel to enable the rest two edges to be outward, the second trimming mechanism polishes and removes ink on the rest two edges of the glass panel, manual operation is not needed in the whole polishing and ink removing process, labor cost is saved, trimming is neat and consistent, the quality of glass products is guaranteed, manual operation is not needed, and the influence of dust sucked by a human body on human health is avoided.

Description

Glass edge printing ink trimmer

Technical Field

The invention belongs to the technical field of glass manufacturing, and particularly relates to a glass edge ink trimmer.

Background

When the glass product is printed on a full plate, printing ink can permeate through the screen printing plate and flows to four edges of glass, so that the glass product cannot meet the quality requirement, the printing ink at the edges needs to be removed before factory leaving the factory, the printing ink is removed in the manual polishing mode in the past, the manual polishing efficiency is low, a large amount of labor force is needed, and a large amount of dust generated after polishing can harm the health of workers.

Disclosure of Invention

Objects of the invention

In order to overcome the defects, the invention aims to provide a glass edge ink trimmer to solve the technical problems that the efficiency is low, dust generated by glass polishing is absorbed by a human body and the health of the human body is seriously affected in the conventional manual operation during glass polishing.

(II) technical scheme

In order to achieve the purpose, the technical scheme provided by the application is as follows:

a glass edge ink edger comprising:

the position adjusting mechanism comprises a first transmission assembly and limiting assemblies, wherein the first transmission assembly is used for driving the glass panel with ink adhered to the peripheral edge to move forwards, and the limiting assemblies are arranged on two sides of the first transmission assembly and used for abutting against the glass panel moving forwards to adjust the position of the glass panel on the first transmission assembly;

the first trimming mechanism is arranged behind the position adjusting mechanism and comprises a second transmission assembly used for receiving the glass panel output from the position adjusting mechanism and driving the glass panel to move forwards, a clamping assembly arranged on the side edge of the second transmission assembly and used for clamping the glass panel moving on the second transmission assembly, and a polishing device arranged between the clamping assemblies and used for polishing and removing ink from the opposite edge of the glass panel moving forwards;

the turnover mechanism is arranged behind the first trimming mechanism and comprises a third transmission component for driving the glass panel output from the first trimming mechanism to move forwards, a rotating component arranged above the third transmission component and a suction component arranged on the rotating component, and the suction component drives the glass panel to rotate for a preset angle under the driving of the rotating component after sucking the glass panel so that two edges of the glass panel which are not polished are outward;

and the second trimming mechanism has the same structure as the first trimming mechanism and is used for polishing and removing ink from two opposite edges of the glass panel which are not polished.

By arranging the position adjusting mechanism, the first trimming mechanism, the turnover mechanism and the second trimming mechanism, during operation, the position adjusting mechanism firstly adjusts the position of the glass panel, then the glass panel is sent into the first trimming mechanism to be polished and trimmed, then the turnover mechanism turns over the glass panel to enable the rest two edges to be outward, the second trimming mechanism polishes and removes ink on the rest two edges of the glass panel, the whole polishing and ink removing process does not need manual operation, labor cost is saved, trimming is neat and consistent, the quality of a glass product is ensured, manual operation is not needed, human body health is prevented from being influenced by dust sucked by a human body, the accuracy of inputting the glass panel into the first trimming mechanism can be improved by arranging the position adjusting mechanism, and the situation that the position of the glass panel input into the first trimming mechanism cannot be matched with a polishing device to polish the edges accurately is avoided, the fixed glass panel that sets up clamping component can be stable on the first deburring mechanism, avoids it to rock and influences the deburring effect, can avoid the proportion panel to drop simultaneously, improves the stability of deburring process.

In some embodiments, further comprising: the automatic feeding mechanisms are connected with the grinding devices in a driving mode respectively, the automatic feeding mechanisms can drive the grinding devices to move towards the edge direction close to the glass panel, and the grinding effect is prevented from being influenced due to the fact that the grinding devices are not in close contact with the glass panel after being abraded for a long time.

In some embodiments, the automatic feed mechanism comprises: the sliding seat is driven to slide along the sliding rail to drive the polishing device to move towards the edge direction close to the glass panel, and the polishing device is driven to move by the sliding seat to be adjusted to achieve automatic feeding of the polishing device.

In some embodiments, the sliding seat is provided with an arc-shaped adjusting groove which is in sliding fit with the polishing device and used for adjusting the polishing angle of the polishing device, and an operator can adjust the polishing angle of the polishing device according to the shape of the glass panel so as to adapt to different glass panels and improve the universality of the edge trimmer.

In some embodiments, further comprising: the angle adjusting structure is connected with the grinding device in a driving mode, and the grinding angle of the grinding device can be adjusted through the angle adjusting structure, so that the grinding device can be matched with glass panels of different shapes, and the universality of the grinding device is improved.

In some embodiments, the first transmission component comprises: a plurality of first transmission shafts are transversely arranged side by side, a plurality of first transmission wheels are distributed on each first transmission shaft along the length direction of the first transmission shaft, and the first transmission wheels are driven by the first transmission shafts to rotate to drive the glass panel to move forwards;

spacing subassembly includes: two rows of limiting shafts are arranged perpendicular to the first transmission shaft, and a limiting space used for limiting the position of the glass panel is formed between the two rows of limiting shafts.

In some embodiments, further comprising: the limiting shaft adjusting assembly is in driving connection with the same row of limiting shafts, and the limiting shaft adjusting assembly can drive the two rows of limiting shafts to move in opposite directions or in reverse directions so as to adjust the size of a limiting space, so that the two rows of limiting shafts can adjust the positions of glass panels with different areas.

In some embodiments, the second transmission assembly comprises: the two conveying belts are symmetrically arranged and used for driving the glass panel to move forwards;

the clamping assembly includes: the glass panel clamping device comprises two rows of clamping rotating shafts, wherein each row of clamping rotating shafts is arranged on the side edge of one conveying belt, and the two rows of clamping rotating shafts are matched with each other to clamp the glass panel;

the grinding device is arranged between two adjacent clamping rotating shafts in the same row.

In some embodiments, the third transmission assembly comprises: a plurality of second transmission shafts are transversely arranged side by side, each second transmission shaft is provided with a plurality of second transmission wheels along the length direction, and the second transmission wheels are driven by the second transmission shafts to rotate to drive the glass panel to move forwards;

the rotating assembly includes: the rotating rod is rotatably arranged above the second transmission shaft, and the rotating rod is provided with an absorption assembly;

the subassembly of drawing includes: the device comprises an up-and-down driving device and a sucker arranged at the driving end of the up-and-down driving device.

In some embodiments, further comprising: many regulation poles, slidable sets up on the dwang, is provided with on the regulation pole and absorbs the subassembly, through setting up many regulation poles, and the area variation in size who works as glass panels is in kind, can slide the position of adjacent two regulation poles to adjust the position of absorbing the subassembly, absorb the subassembly and can adsorb in glass panels's different positions, the not glass panels of area size of adaptation have improved the commonality of printing ink trimmer.

In some embodiments, further comprising: the air filtering device is arranged adjacent to the first trimming mechanism and the second trimming mechanism, and can absorb dust generated during polishing of the first trimming mechanism and the second trimming mechanism, so that the condition that operators inhale the dust and the health is influenced is avoided.

Drawings

FIG. 1 is a schematic diagram of the construction of the glass edge ink edger of the present invention;

FIG. 2 is a schematic diagram of the position adjustment mechanism of the glass edge ink edger of the present invention;

fig. 3 is a partially enlarged view of a portion a in fig. 2;

FIG. 4 is a schematic structural view of a first deburring mechanism of the glass edge ink edger of the present invention;

FIG. 5 is a schematic structural view of the sander of the first trimmer mechanism of the present invention;

FIG. 6 is a top view of a canting mechanism of the glass edge ink edger of the present invention;

FIG. 7 is a side view of the canting mechanism of the glass edge ink edger of the present invention.

Reference numerals:

1: a position adjustment mechanism; 101: a first drive shaft; 102: a first drive pulley; 103: a limiting shaft; 104: a connecting plate; 2: a first trimming mechanism; 201: a polishing device; 2011: grinding the sheets; 202: a conveyor belt; 203: clamping the rotating shaft; 204: a slide rail; 205: an air filtration device; 206: a sliding seat; 2061: an arc-shaped adjusting groove; 3: a turnover mechanism; 302: a second drive shaft; 301: a second transmission wheel; 303: rotating the rod; 304: adjusting a rod; 305: a rotating electric machine; 306: a suction cup; 4: a second trimming mechanism; 5: a glass panel.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Referring to fig. 1-7, the present invention provides a glass edge ink trimmer, which includes:

the position adjusting mechanism 1 comprises a first transmission component and limiting components, wherein the first transmission component is used for driving the glass panel 5 with ink adhered to the peripheral edge to move forwards, and the limiting components are arranged on two sides of the first transmission component and used for abutting against the glass panel 5 moving forwards to adjust the position of the glass panel 5 on the first transmission component;

the first trimming mechanism 2 is arranged behind the position adjusting mechanism 1 and comprises a second transmission component for receiving the glass panel 5 output from the position adjusting mechanism 1 and driving the glass panel to move forwards, a clamping component arranged at the side edge of the second transmission component and used for clamping the glass panel 5 moving on the second transmission component, and a polishing device 201 arranged between the clamping components and used for polishing and removing ink on the opposite edge of the glass panel 5 moving forwards;

the turnover mechanism 3 is arranged behind the first trimming mechanism 2 and comprises a third transmission component for driving the glass panel 5 output from the first trimming mechanism 2 to move forwards, a rotating component arranged above the third transmission component and a suction component arranged on the rotating component, and the suction component drives the glass panel 5 to rotate for a preset angle under the driving of the rotating component after sucking the glass panel 5 so as to enable two edges of the glass panel 5 which are not polished to be outward;

the second deburring mechanism 4 has the same structure as the first deburring mechanism 2, the first deburring mechanism 2 polishes and removes ink on one pair of opposite edges of the glass panel 5, the second deburring mechanism 4 polishes and removes ink on the other pair of opposite edges of the glass panel 5, and the first deburring mechanism 2 and the second deburring mechanism 4 are matched with each other to remove ink on the peripheral edge of the whole glass panel 5.

Referring to figures 2 and 3 of the drawings,

the first transmission assembly includes: the glass panel is characterized by comprising a plurality of first transmission shafts 101, wherein the first transmission shafts 101 are transversely arranged side by side, two adjacent first transmission shafts 101 are in transmission connection through chains, a plurality of first transmission wheels 102 abutted against the glass panel 5 are distributed on each first transmission shaft 101 along the length direction of the first transmission shaft, and the first transmission wheels 102 are driven by the first transmission shafts 101 to rotate so as to drive the glass panel 5 to move;

spacing subassembly includes: two rows of limiting shafts 103 are perpendicular to the first transmission shafts 101, the limiting shafts 103 can rotate, each limiting shaft 103 is arranged between two adjacent first transmission shafts 101, and a limiting space for limiting the position of the glass panel 5 is formed by the two rows of limiting shafts 103 in a surrounding mode. The width of the limiting space corresponds to the size of the inlet of the first trimming mechanism 2 behind the limiting space, and the glass panel 5 can accurately enter the first trimming mechanism 2 after passing through the limiting space, so that the processing accuracy is improved.

Preferably, the method further comprises the following steps: spacing axle adjusting part, spacing axle adjusting part specifically includes: connecting plate 104 and with the cylinder of connecting plate 104 drive connection, the spacing axle 103 of same row is installed on connecting plate 104, when the cylinder starts, can drive connecting plate 104 and remove to adjust the distance between two rows of spacing axles 103, make spacing space can the not equidimension glass panels 5 of adaptation, improved the commonality of equipment.

Specifically, referring to FIGS. 4 and 5,

the second transmission assembly includes: the two conveying belts 202 are symmetrically arranged, and the conveying belts 202 are used for driving the glass panel 5 to move;

the clamping assembly includes: two rows of clamping rotating shafts 203, wherein each row of clamping rotating shafts 203 are arranged on one side of the conveying belt 202 at intervals along the length direction of the conveying belt 202, the clamping rotating shafts 203 are arranged perpendicular to the conveying belt 202 and can be rotatably arranged, and the clamping rotating shafts 203 are used for clamping the glass panel 5 and driving the glass panel 5 to move;

a grinding device 201, specifically, a grinder, is provided between adjacent two clamping rotating shafts 203 for grinding the edge of the glass panel 5 moving on the conveying belt 202.

Preferably, a plurality of automatic feeding mechanisms are provided, and each automatic feeding mechanism is in driving connection with one polishing device 201 respectively and is used for driving the polishing device 201 to move towards the edge direction close to the glass panel 5.

Referring to fig. 5, in particular, the automatic feeding mechanism includes: slide rail 204, sliding seat 206 and cylinder, sliding seat 206 and slide rail 204 sliding fit and be used for installing grinding device 201, the cylinder is connected with the driving of sliding seat 206, can drive the back-and-forth movement of sliding seat 206, the piece 2011 that polishes on grinding device 201 wears the volume and diminishes, sliding seat 206 can drive grinding device 201 and move forward, make the edge that the piece 2011 of polishing on the mill can butt glass panels 5 polish, the effect of polishing is not closely influenced with the 5 edge contact of glass panels 2011 of polishing has been avoided.

Specifically, the arc-shaped adjusting groove 2061 is formed in the sliding seat 206, the polishing device 201 is fixed to the arc-shaped adjusting groove 2061 through the screw, when the polishing angle of the polishing device 201 needs to be adjusted, the screw is screwed, the polishing device 201 is rotated to a preset angle along the arc-shaped adjusting groove 2061, then the screw is locked, the polishing device 201 is fixed to the preset angle, the polishing angle of the polishing device 201 can be adjusted through the arc-shaped adjusting groove 2061, and the glass panels 5 in different shapes can be adapted.

Referring to fig. 6 and 7, in particular, the third transmission assembly includes: the plurality of second transmission shafts 302 are transversely arranged side by side, the plurality of second transmission shafts 302 are synchronously transmitted through chains, a plurality of second transmission wheels 301 are distributed on each second transmission shaft 302 along the length direction of the second transmission shaft, and the second transmission wheels 301 are driven by the second transmission shafts 302 to rotate to drive the glass panel 5 to move;

the rotating assembly includes: the rotating rod 303 and the rotating motor 305, the rotating rod 303 is rotatably arranged above the second transmission shaft 302, and the rotating motor 305 drives the rotating rod 303 to rotate by a preset angle;

the subassembly of drawing includes: an up-and-down driving device and a suction cup 306, the up-and-down driving device can drive the suction cup 306 to move up and down to suck and fix the glass panel 5 moving on the second transmission shaft 302, preferably, the suction cup 306 can be a vacuum suction cup 306.

Specifically, the dwang 303 sets up in second transmission shaft 302 top with 45 angles of slope, and after sucking glass panels 5 when sucking disc 306, dwang 303 drives glass panels 5 rotatory 90 to overturn glass panels 5, at this moment, glass panels 5's other both sides are located the outside.

In a specific embodiment, the method further comprises: many regulation poles 304, slidable sets up on dwang 303, is provided with on the regulation pole 304 and absorbs the subassembly. When the areas of the glass panels 5 are different, the positions of the two adjusting rods 304 can be matched with the glass panels 5 with different areas by sliding the rotating rods 303, so that the universality of the equipment is improved.

In a specific embodiment, the method further comprises: and an air filter device 205 disposed adjacent to the first and second deburring mechanisms 4 for absorbing dust generated during the polishing by the first and second deburring mechanisms 4, wherein the air filter device 205 may be a suction fan.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. A glass edge ink trimmer, comprising:

the position adjusting mechanism (1) comprises a first transmission component and limiting components, wherein the first transmission component is used for driving a glass panel (5) with ink adhered to the peripheral edge to move forwards, and the limiting components are arranged on two sides of the first transmission component and used for abutting against the glass panel (5) moving forwards to adjust the position of the glass panel (5) on the first transmission component;

the first trimming mechanism (2) is arranged behind the position adjusting mechanism (1) and comprises a second conveying assembly used for receiving the glass panel (5) output from the position adjusting mechanism (1) and driving the glass panel to move forwards, a clamping assembly arranged on the side edge of the second conveying assembly and used for clamping the glass panel (5) moving on the second conveying assembly, and a polishing device (201) arranged between the clamping assemblies and used for polishing and removing ink from the opposite edges of the glass panel (5) moving forwards;

the turnover mechanism (3) is arranged behind the first trimming mechanism (2) and comprises a third transmission component for driving the glass panel (5) output from the first trimming mechanism (2) to move forwards, a rotating component arranged above the third transmission component and a suction component arranged on the rotating component, and the suction component drives the glass panel (5) to rotate for a preset angle under the driving of the rotating component after sucking the glass panel (5), so that two edges of the glass panel (5) which are not polished are outward;

and the second trimming mechanism (4) is the same as the first trimming mechanism (2) in structure, and the second trimming mechanism (4) is used for polishing and removing ink from two opposite edges of the glass panel (5) which are not polished.

2. The glass edge ink trimmer of claim 1, further comprising: each automatic feeding mechanism is in driving connection with one polishing device (201) and is used for driving the polishing devices (201) to move towards the edge direction close to the glass panel (5).

3. The glass edge ink trimmer of claim 2, wherein the automatic feed mechanism comprises: the polishing device comprises a sliding rail and a sliding seat (206) in sliding fit with the sliding rail, wherein the sliding seat (206) is driven to slide along the sliding rail to drive the polishing device (201) to move towards the edge direction close to the glass panel (5).

4. The glass edge ink trimmer according to claim 3, characterized in that the sliding seat (206) is provided with an arc-shaped adjusting groove (2061) which is in sliding fit with the grinding device (201) and is used for adjusting the grinding angle of the grinding device (201).

5. The glass edge ink trimmer of claim 1,

the first transmission assembly includes: the glass panel driving device comprises a plurality of first transmission shafts (101) which are transversely arranged side by side, wherein a plurality of first transmission wheels (102) are distributed on each first transmission shaft (101) along the length direction of the first transmission shaft, and the first transmission wheels (102) are driven by the first transmission shafts (101) to rotate to drive the glass panel (5) to move forwards;

the spacing subassembly includes: two rows of limiting shafts (103) are arranged perpendicular to the first transmission shaft (101), and a limiting space used for limiting the position of the glass panel (5) is formed between the two rows of limiting shafts (103).

6. The glass edge ink trimmer of claim 5, further comprising: and the limiting shaft adjusting assemblies are respectively in driving connection with the two rows of limiting shafts (103) and are used for driving the two rows of limiting shafts (103) to move in the opposite direction or the reverse direction so as to adjust the size of the limiting space.

7. The glass edge ink trimmer of claim 1,

the second transmission assembly includes: the two symmetrically arranged conveying belts (202) are used for driving the glass panel (5) to move forwards;

the clamping assembly includes: two rows of clamping rotating shafts (203), wherein each row of clamping rotating shafts (203) is arranged at the side edge of one conveying belt (202), and the two rows of clamping rotating shafts (203) are matched with each other to clamp the glass panel (5);

the grinding device (201) is arranged between two adjacent clamping rotating shafts (203) in the same row.

8. The glass edge ink trimmer of claim 1,

the third transmission assembly includes: a plurality of second transmission shafts (301) are transversely arranged side by side, a plurality of second transmission wheels (302) are distributed on each second transmission shaft (301) along the length direction of the second transmission shaft, and the second transmission wheels (302) are driven by the second transmission shafts (301) to rotate to drive the glass panel (5) to move forwards;

the rotating assembly includes: the rotating rod (303) is rotatably arranged above the second transmission shaft (301), and the sucking assembly is mounted on the rotating rod (303);

the suction assembly comprises: the device comprises an up-and-down driving device and a sucker (306) arranged at the driving end of the up-and-down driving device.

9. The glass edge ink trimmer of claim 8, further comprising: many regulation poles (304), slidable sets up on dwang (303), be provided with on adjusting pole (304) absorb the subassembly.

10. The glass edge ink trimmer of any one of claims 1-9, further comprising: and the air filtering device (205) is arranged adjacent to the first trimming mechanism and the second trimming mechanism (4) and is used for absorbing dust generated when the first trimming mechanism and the second trimming mechanism (4) are used for grinding.

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