CN216440965U

CN216440965U - Glass coating device

Info

Publication number: CN216440965U
Application number: CN202122925414.3U
Authority: CN
Inventors: 黄冲
Original assignee: Individual
Current assignee: Baoding Rongda Electronic Equipment Co ltd
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-05-06
Anticipated expiration: 2031-11-26

Abstract

The utility model discloses a glass edge coating device which comprises a support and a glass conveying mechanism, wherein an oil coating box, an oil extruding roller and a rotatable oil coating roller are arranged on the support, the oil extruding roller is arranged on one side of the oil coating roller in parallel, the roller surface of the oil coating roller can extend into the oil coating box, the oil coating roller is rotatably connected with a first driving device, and the glass conveying mechanism can convey the edge of glass to be coated to the lower part of the oil coating roller; the oiling roller, the oiling box and the oil squeezing roller are all connected with the height adjusting mechanism, the height adjusting mechanism is connected with the first horizontal adjusting mechanism, the height adjusting mechanism drives the oiling roller, the oiling box and the oil squeezing roller to lift and further adjust the relative height of the oiling roller, the oiling box, the oil squeezing roller and the glass conveying mechanism, and the first horizontal adjusting mechanism drives the height adjusting mechanism to horizontally move close to or far away from the glass conveying mechanism. The glass edge coating device has the advantages of uniform oil coating, easy adjustment of oil coating amount, ink saving and beautiful glass finished products.

Description

Glass coating device

Technical Field

The utility model relates to the technical field of glass coating, in particular to a glass edge coating device.

Background

The process of inking the edge of the glass can play a good dustproof role on furniture, and can also block the connecting glue between the glass and the door frame, thereby playing a role in beauty. The existing glass inking process mainly comprises two processes: one type is direct roller coating, the existing roller coating equipment has simple structure, uneven oiling, easy oil overflow and great waste, the oiling amount is difficult to adjust, and the finished glass product processed by the equipment has poor aesthetic property; the other type is that the paper is covered on the glass firstly, then the paper edge is cut by the laser cutting equipment, then the paper edge is torn, the glass edge is exposed, then the oil is coated on the glass edge, the part covered by the paper can effectively prevent the ink from immersing, the coating area of the ink is convenient to control, but the process is extremely complicated, and burrs are easily generated when the paper edge is torn, so that the attractiveness of a glass finished product is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a glass edge coating device which is uniform in oil coating, easy to adjust in oil coating amount, ink-saving and attractive in glass finished product.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a glass edge coating device comprises a support and a glass conveying mechanism, wherein an oil coating box, an oil extruding roller and a rotatable oil coating roller are arranged on the support, the oil extruding roller is arranged on one side of the oil coating roller in parallel, the roller surface of the oil coating roller can extend into the oil coating box, the oil coating roller is rotatably connected with a first driving device, and the glass conveying mechanism can convey the edge of glass to be coated to the lower part of the oil coating roller; the height adjusting mechanism drives the height adjusting mechanism to move horizontally close to or far away from the glass conveying mechanism, and then the oil coating roller, the oil coating box and the oil extruding roller are driven to horizontally close to or far away from the glass conveying mechanism; the oiling box and the oil squeezing roller are also connected with a second horizontal adjusting mechanism, and the second horizontal adjusting mechanism drives the oiling box and the oil squeezing roller to be close to or far away from the oiling roller.

Preferably, the oiling box is arranged on one side of the oiling roller, an opening is reserved on the corresponding side of the oiling roller by the oiling box, the two ends of the opening are respectively provided with an oil scraping plate, and the oiling roller extends into the oiling box from the position between the two oil scraping plates.

Preferably, an oil receiving groove is arranged below the oil squeezing roller.

Preferably, the distance between the two oil scraping plates is matched with the length of the oiling roller.

Preferably, the oiling box and the oil squeezing roller are also connected with a third horizontal adjusting mechanism, and the third horizontal adjusting mechanism drives the oiling box and the oil squeezing roller to be close to or far away from the glass conveying mechanism.

Preferably, the first driving device comprises a first driving motor, and the height adjusting mechanism comprises a height adjusting motor and a first lead screw and nut mechanism which is rotationally connected with the height adjusting motor; the first horizontal adjusting mechanism comprises a first horizontal adjusting motor and a second lead screw and nut mechanism which is rotationally connected with the first horizontal adjusting motor.

Preferably, the second horizontal adjusting mechanism comprises a third lead screw-nut mechanism; the height adjusting mechanism further comprises a first linear guide rail, and the first horizontal adjusting mechanism further comprises a second linear guide rail.

Preferably, the third horizontal adjusting mechanism comprises a sliding chute arranged on the oiling box and a sliding rail connected with the second horizontal adjusting mechanism, and the sliding chute is matched with the sliding rail and drives the oiling box to horizontally move along the sliding rail to realize approaching or leaving the glass conveying mechanism.

Preferably, the glass conveying mechanism comprises a plurality of groups of rotatable conveying rollers, and the conveying rollers are provided with conveying belts.

Further preferably, the distance between the two oil scraping plates is adjustable.

In the technical scheme, the height adjusting mechanism is arranged to drive the oiling roller, the oiling box and the oil squeezing roller to lift so as to adjust the relative heights of the oiling roller, the oiling box, the oil squeezing roller and the glass conveying mechanism, so that the glass oiling device is suitable for glass coating edges with different thicknesses and applies different oiling forces to glass, and further the oiling effect is controlled; the first horizontal adjusting mechanism is arranged to drive the height adjusting mechanism to horizontally approach or move away from the glass conveying mechanism, so that the oiling roller, the oiling box and the oil squeezing roller are driven to horizontally approach or move away from the glass conveying mechanism, and the coating edge requirements of different widths are met; the fat liquoring roller is stretched into the inside oil-coated box of dipping in by the side between two frizing blocks and gets printing ink, take place the extrusion with crowded fat liquoring roller immediately again, it causes printing ink extravagant to avoid printing ink to splash along with the rotatory emergence of fat liquoring roller, when the fat liquoring roller rotates scribbles the seal, the frizing block can carry out printing ink to the fat liquoring roller side and strike off the processing and collect the printing ink of striking off to the fat liquoring box once more in, the printing ink of avoiding the fat liquoring roller side drips, it is inhomogeneous or printing ink extravagant to cause the fat liquoring, crowded fat liquoring roller below connects the oil groove and further accepts crowded fat liquoring roller or two oil scraping plate drippage printing ink, further avoid printing ink extravagant. Drive the fat liquoring box and crowded oily roller and be close to or keep away from the fat liquoring roller through setting up second horizontal adjustment mechanism to change the extrusion degree of crowded oily roller to the fat liquoring roller, and then the fat liquoring volume of control fat liquoring roller, guarantee that even being stained with full printing ink controls fat liquoring roller coat oil mass and fat liquoring degree of consistency simultaneously on the fat liquoring roller.

Drawings

FIG. 1 is a schematic front view of the present glass edge coating apparatus;

FIG. 2 is a schematic front view of the present glass edge coating apparatus (not including a glass conveying mechanism);

FIG. 3 is a perspective view of the present glass edge coating apparatus;

FIG. 4 is a schematic enlarged view of a portion of the glass edge coating apparatus.

Detailed Description

The utility model will be further explained with reference to the accompanying drawings:

as shown in fig. 1 to 4, the glass edge coating device includes a bracket 1 and a glass conveying mechanism 2, wherein an oil coating box 3, an oil extruding roller 4 with a smooth surface and an oil coating roller 5 with a rubber surface are arranged on the bracket 1, the oil extruding roller 4 is arranged at one side of the oil coating roller 5 in parallel, a roller surface 51 of the oil coating roller 5 can extend into the oil coating box 3 to dip ink in the oil coating box 3, the oil coating roller 5 is rotatably connected with a first driving motor of a first driving device (not shown), and the first driving motor drives the oil coating roller 5 to rotate so that the roller surface 51 of the oil coating roller 5 continuously dips ink from the oil coating box 3; the glass conveying mechanism 2 comprises a plurality of groups of rotatable conveying rollers 21, a conveying belt 22 is arranged on the conveying rollers 21, the conveying belt 22 moves along with the conveying rollers 21 to support the glass to be oiled and conveys the edge of the glass to be oiled to the lower part of the oiling roller 5; in this embodiment, the oiling roller 5, the oiling box 3 and the oil squeezing roller 4 are all connected with a height adjusting mechanism 7, the height adjusting mechanism 7 can be a height adjusting motor (not shown) and a first lead screw-nut mechanism 72 rotationally connected with the height adjusting motor, or can be a height adjusting motor and a slider-crank mechanism rotationally connected with the height adjusting motor, the height adjusting mechanism 7 is further connected with a first horizontal adjusting mechanism 8, the first horizontal adjusting mechanism 8 comprises a first horizontal adjusting motor 81 and a second lead screw-nut mechanism 82 rotationally connected with the first horizontal adjusting motor 81, so that the height adjusting motor rotates to drive the first nut of the first lead screw-nut mechanism 72 to lift and further drive the oiling roller 5, the oiling box 3 and the oil squeezing roller 4 to lift and further adjust the relative heights of the oiling roller 5, the oiling box 3, the oil squeezing roller 4 and the glass conveying mechanism 2, the device is suitable for coating edges of glass with different thicknesses and applying different oil coating forces to the glass, so that the oil coating effect of the oil coating roller 5 is controlled; the first horizontal adjusting motor 81 rotates to drive the second nut of the second lead screw nut mechanism 82 to horizontally approach or move away from the glass conveying mechanism 2, so as to drive the oiling roller 5, the oiling box 3 and the oil squeezing roller 4 to horizontally approach or move away from the glass conveying mechanism 2, and the edge coating requirements of different widths are met; oiling box 3 and crowded oily roller 4 still link to each other with second horizontal adjustment mechanism 9, second horizontal adjustment mechanism 9 includes third screw-nut mechanism 91, rotate the handle that links to each other with third screw-nut mechanism 91, and then drive oiling box 3 and crowded oily roller 4 and be close to or keep away from fat liquoring roller 5, with the extrusion degree of change crowded oily roller 4 to fat liquoring roller 5, and then the oil mass of control fat liquoring roller 5, guarantee that even being stained with printing ink on fat liquoring roller 5 controls fat liquoring roller 5 fat liquoring volume and fat liquoring degree of consistency simultaneously.

In a preferred embodiment, the oil coating box 3 is arranged at one side of the oil coating roller 5, the oil coating box 3 is provided with an opening 31 at the corresponding side of the oil coating roller 5, two ends of the opening 31 are respectively provided with a substantially arc-shaped oil scraping plate 32, the oil coating roller 5 extends into the oil coating box 3 from the position between the two oil scraping plates 32 and is extruded with the oil squeezing roller 4, an oil receiving groove 41 is arranged below the oil squeezing roller 4, the two oil scraping plates 32 are arranged at an adjustable distance to meet different matching degrees between the oil scraping plates 32 and the roller surface 51 of the oil coating roller 5, ink is put into the oil coating box 3, the oil coating roller 5 is rotated, the side surface 51 of the oil coating roller continuously dips ink from the oil coating box 3 and then is extruded with the oil squeezing roller 4, so that the ink is prevented from splashing along with the rotation of the oil coating roller 5 to cause ink waste, the oil coating roller 5 rotates to be coated, and the oil scraping plates 32 are matched with the side surface of the oil coating roller 5, so that the oil scraping plates 32 can scrape the side surface of the oil coating roller 5 and collect the scraped ink into the oil coating box 3 again, the ink dripping of the side face of the oiling roller 5 is avoided, uneven oiling or waste of the ink is caused, the oil receiving groove 41 below the oil squeezing roller 4 further receives the ink dripping of the oil squeezing roller 4 or the two oil scraping plates 32, and waste of the ink is further avoided.

In a preferred embodiment, the oil coating box 3 and the oil squeezing roller 4 are also connected with a third horizontal adjusting mechanism 10, and the third horizontal adjusting mechanism 10 drives the oil coating box 3 and the oil squeezing roller 4 to be close to or far away from the glass conveying mechanism 2, so that the oil coating box 3 and the oil squeezing roller 4 can be cleaned conveniently. In this embodiment, the third horizontal adjustment mechanism 10 includes a sliding chute 101 disposed on the oiling box 3 and a sliding rail 102 connected to the second horizontal adjustment mechanism 9, and the sliding chute 101 cooperates with the sliding rail 102 and drives the oiling box 3 to move horizontally along the sliding rail 102 to approach or separate from the glass conveying mechanism 2. Further, height adjustment mechanism 7 still includes first linear guide 73, and first horizontal adjustment mechanism 8 still includes second linear guide 83, increases oiling roller 5, fat liquoring box 3 and crowded oily roller 4 lift, is close to or keeps away from the motion precision of glass transport mechanism 2, and then guarantees that even being stained with on oiling roller 5 is full of printing ink and more accurate control oiling roller 5 fat liquoring volume and fat liquoring degree of consistency simultaneously, improves the pleasing to the eye degree of glass finished product.

In the technical scheme, the handle connected with the third screw rod nut mechanism 91 is rotated to further drive the oiling box 3 and the oil squeezing roller 4 to be close to the oiling roller 5, and the oiling roller 5 extends into the oiling box 3 from the position between the two oil scraping plates 32 and is squeezed with the oil squeezing roller 4; the first horizontal adjusting motor 81 rotates to drive the second nut of the second lead screw nut mechanism 82 to horizontally approach the glass conveying mechanism 2 to move, so that the oiling roller 5, the oiling box 3 and the oil squeezing roller 4 are driven to horizontally approach the glass conveying mechanism 2, and the edge coating requirements of different widths are met; the height adjusting motor 71 rotates to drive the first nuts of the first lead screw nut mechanism 72 to lift, so that the oiling roller 5, the oiling box 3 and the oil squeezing roller 4 are driven to lift until the oiling roller 5, the oiling box 3 and the oil squeezing roller 4 reach a proper distance height from the glass conveying mechanism 2, the glass edge coating device is suitable for glass coating edges with different thicknesses, different oiling force is applied to glass, and the oiling effect of the oiling roller 5 is controlled; putting printing ink into the oil coating box 3, rotating the oil coating roller 5, continuously dipping the roller surface 51 in the printing ink from the oil coating box 3, and then immediately extruding the printing ink with the oil extruding roller 4 to avoid the printing ink from splashing along with the rotation of the oil coating roller 5 to cause printing ink waste, wherein the conveying belt 22 advances along with the conveying roller 21 to support the glass to be coated and conveys the edge of the glass to be coated to the lower part of the oil coating roller 5; when the oiling roller 5 rotates for coating, the oil scraping plate 32 is matched with the side surface of the oiling roller 5, so that the oil scraping plate 32 can scrape ink on the side surface of the oiling roller 5 and collect the scraped ink into the oiling box 3 again, and the phenomenon that the ink on the side surface of the oiling roller 5 drips to cause uneven oil coating or waste of the ink is avoided; the extrusion degree of the oil extruding roller 4 to the oil coating roller 5 is changed, the oil coating amount of the oil coating roller 5 is further controlled, the oil coating roller 5 is guaranteed to be uniformly full of printing ink on the oil coating roller 5, and the oil coating amount and the oil coating uniformity of the oil coating roller 5 are controlled.

The embodiment is only for explaining the conception and the implementation of the utility model, and does not limit the same, and the technical solution without substantial change is still in the protection scope under the conception of the utility model.

Claims

1. A glass edge coating device comprises a support and a glass conveying mechanism, wherein an oil coating box, an oil extruding roller and a rotatable oil coating roller are arranged on the support, the oil extruding roller is arranged on one side of the oil coating roller in parallel, the roller surface of the oil coating roller can extend into the oil coating box, the oil coating roller is rotatably connected with a first driving device, and the glass conveying mechanism can convey the edge of glass to be coated to the lower part of the oil coating roller; the glass conveying mechanism is characterized in that the oiling roller, the oiling box and the oil squeezing roller are all connected with a height adjusting mechanism, the height adjusting mechanism is connected with a first horizontal adjusting mechanism, the height adjusting mechanism drives the oiling roller, the oiling box and the oil squeezing roller to lift and further adjust the relative heights of the oiling roller, the oiling box and the oil squeezing roller and the glass conveying mechanism, the first horizontal adjusting mechanism drives the height adjusting mechanism to move horizontally close to or far away from the glass conveying mechanism, and further drives the oiling roller, the oiling box and the oil squeezing roller to horizontally close to or far away from the glass conveying mechanism; the oiling box and the oil squeezing roller are also connected with a second horizontal adjusting mechanism, and the second horizontal adjusting mechanism drives the oiling box and the oil squeezing roller to be close to or far away from the oiling roller.

2. The glass edging device according to claim 1, wherein the oiling box is provided on one side of the oiling roller, the oiling box is provided with an opening on the corresponding side of the oiling roller, two ends of the opening are provided with the oil scraping plates, and the oiling roller extends into the oiling box from the space between the two oil scraping plates.

3. The glass edging device according to claim 2, wherein an oil receiving groove is provided below the oil squeeze roller.

4. The glass edging device according to claim 2 or 3, wherein the distance between the two doctor blades is matched to the length of the oiling roller.

5. The glass edging device according to claim 1, wherein the oiling box and the oil squeegee are further connected to a third leveling mechanism, and the third leveling mechanism moves the oiling box and the oil squeegee closer to or farther from the glass conveying mechanism.

6. The glass edging device according to claim 1, wherein the first drive device comprises a first drive motor, and the height adjustment mechanism comprises a height adjustment motor and a first lead screw-nut mechanism rotatably connected to the height adjustment motor; the first horizontal adjusting mechanism comprises a first horizontal adjusting motor and a second lead screw and nut mechanism which is rotationally connected with the first horizontal adjusting motor.

7. The glass edging device according to claim 6, wherein the second leveling mechanism comprises a third lead screw-nut mechanism; the height adjusting mechanism further comprises a first linear guide rail, and the first horizontal adjusting mechanism further comprises a second linear guide rail.

8. The glass coating apparatus of claim 5, wherein the third horizontal adjustment mechanism comprises a slide slot disposed on the coating box and a slide rail connected to the second horizontal adjustment mechanism, the slide slot engaging with the slide rail and driving the coating box to move horizontally along the slide rail to move closer to or farther from the glass conveying mechanism.

9. The glass edging device according to claim 1, wherein the glass conveying mechanism comprises a plurality of sets of rotatable conveying rollers on which the conveying belts are provided.

10. The glass edging device according to claim 4, wherein the distance between the two oil scraping plates is adjustable.