CN219771991U - AG glass spraying production line and plate discharging mechanism thereof - Google Patents

Abstract

The utility model discloses an AG glass spraying production line and a lower plate mechanism thereof, wherein the lower plate mechanism of the AG glass spraying production line comprises a jig transmission mechanism and a jig stacking mechanism which are sequentially arranged along the conveying direction of the production line, the jig stacking mechanism comprises at least two jig mounting frames which are sequentially arranged along the vertical direction, the jig transmission mechanism comprises a lifting driving module and a horizontal transmission assembly, and the lifting driving module drives the horizontal transmission assembly to lift so that jigs transmitted on the horizontal transmission assembly sequentially enter different jig mounting frames. The technical scheme of the utility model can improve the production efficiency of the AG glass spraying production line.

Description

AG glass spraying production line and plate discharging mechanism thereof

Technical Field

The utility model relates to the field of glass spraying equipment, in particular to an AG glass spraying production line and a lower plate mechanism thereof.

Background

AG spraying machine is an anti-dazzle spraying machine, which is used for spraying liquid (AG liquid medicine) on the surface of glass, so that the specular reflection of the surface of the glass is changed into diffuse reflection, thereby achieving the effects of dizziness prevention and dazzling prevention and further creating better visual enjoyment.

In the chinese patent of the bulletin number CN215542184U of the disclosure, an AG thermal spraying apparatus is disclosed, including cleaning unit and spraying unit, the cleaning unit includes a cleaning support base, and cleaning and conveying structure is still installed on the cleaning support base, and the spraying unit includes a spraying support base, and spraying conveying structure is still installed on the spraying support base, and cleaning and conveying structure and spraying conveying structure all include conveying support base, and cleaning and conveying structure and spraying conveying structure all include can move ground tool supporting component on conveying support base.

In the above scheme, the jig is placed on the jig supporting component, and the jig supporting component conveys the jig along the production line. The jig is used for bearing glass, and transporting the glass to a cleaning station and a spraying station in sequence, so that the glass is cleaned and sprayed. However, because the jig is manually taken down from the equipment by a worker, the area and the weight of the jig are large, and each moving is time-consuming and labor-consuming, so that the production efficiency is affected.

Disclosure of Invention

The utility model provides an AG glass spraying production line capable of improving production efficiency and a lower plate mechanism thereof, which are realized by the following technical scheme:

the utility model provides a lower plate mechanism of AG glass spraying production line, includes tool transmission device, the tool that sets gradually along production line direction of delivery stacks the mechanism, the tool stacks the mechanism and includes two at least tool installing frame that arrange in proper order along vertical direction, tool transmission device includes lift drive module, horizontal transmission subassembly, lift drive module drive horizontal transmission subassembly goes up and down, makes the tool of transmission on the horizontal transmission subassembly gets into the difference in proper order the tool installing frame.

Optionally, the tool stacks the mechanism and includes first frame, be provided with vertical and interval relative base plate in the first frame, the base plate is on a parallel with production line direction of delivery, the medial surface of base plate is provided with at least twice along the support rib that vertical direction was arranged, two relative base plate with two of same horizontal plane support rib between form the tool installing frame.

Optionally, a groove is formed in the top surface of the support rib, a ball is arranged in the groove, and the ball protrudes out of the groove.

Optionally, the bottom of tool stacks the mechanism and is provided with the gyro wheel, tool stacks the mechanism accessible the gyro wheel shift position.

Optionally, along the conveying direction of the production line, a positioning frame is arranged at the rear end of the jig conveying mechanism, and the jig stacking mechanism can move into the positioning frame.

Optionally, an opening is formed on one side of the positioning frame, a rotation locking piece is arranged at the opening of the positioning frame, and the rotation locking piece is used for limiting the jig stacking mechanism in the positioning frame.

Optionally, the jig stacking mechanism further comprises a first sensor, the first sensor is arranged on the first rack, the number and the positions of the first sensor are in one-to-one correspondence with the jig mounting frames, and the first sensor is used for detecting jigs in the jig mounting frames.

Optionally, the jig transmission mechanism further comprises a second frame and a base, the lifting driving module is arranged on the second frame, the base is arranged at the output end of the lifting driving module, and the horizontal transmission assembly is arranged on the base.

Optionally, the horizontal transmission assembly includes two at least conveyer belts that set up side by side, and two at least conveyer belt's interval department is provided with pusher, pusher is used for assisting the conveyer belt pushes away the tool in the tool installing frame.

An AG glass spray coating line comprising a lower plate mechanism as claimed in any one of the preceding claims, said lower plate mechanism being located at the rear end of said AG glass spray coating line.

The design has the following advantages: after the jig drives the glass to carry out spraying operation, the glass is uploaded onto a horizontal transmission assembly of the jig transmission mechanism, and a lifting driving module of the jig transmission mechanism drives the horizontal transmission assembly to adjust the height, so that the horizontal transmission assembly transmits the jig and the glass into a jig mounting frame. The lower plate mechanism is additionally arranged at the rear end of the AG glass spraying production line and is used for carrying out lower plate operation on the jig. The automatic lower plate of the jig can be realized, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic view showing the overall structure of an embodiment of the AG glass spraying production line of the present utility model;

FIG. 2 is a schematic top view of the AG glass spraying line of FIG. 1;

FIG. 3 is a schematic view of the overall structure of the lower plate mechanism of the AG glass spraying production line of the present utility model;

FIG. 4 is a schematic diagram of a jig transporting mechanism of the lower plate mechanism of FIG. 3;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4A;

FIG. 6 is an enlarged schematic view of the structure at B in FIG. 4;

FIG. 7 is a schematic view of a jig stacking mechanism of the lower plate mechanism of FIG. 3;

FIG. 8 is an enlarged schematic view of the structure at C in FIG. 7;

fig. 9 is a schematic view of the lower plate mechanism of fig. 3 after the jig stacking mechanism is loaded with jigs.

The meaning of the reference numerals in the figures:

1. a jig transmission mechanism; 11. a second frame; 12. a base; 13. a lifting driving module; 14. a horizontal transfer assembly; 15. a pushing device;

2. a jig stacking mechanism; 21. a first frame; 22. a substrate; 23. support ribs; 231. a groove; 24. a jig mounting frame; 25. a roller; 26. a first sensor;

3. a positioning frame; 31. a first frame; 32. a second frame; 33. a third frame; 34. rotating the locking piece; 341. a base; 342. a pin shaft; 343. a blocking member;

4. a plasma cleaning machine; 5. AG spraying machine; 6. an IR tunnel furnace; 7. and the upper plate mechanism.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and detailed description.

As shown in fig. 3, this embodiment provides a lower plate mechanism of AG glass spraying production line, including tool transport mechanism 1, the tool that sets gradually along production line direction of delivery stacks mechanism 2, tool stacks mechanism 2 and includes at least two tool installing frame 24 that arrange in proper order along vertical direction, tool transport mechanism 1 includes lift drive module 13, horizontal transmission subassembly 14, lift drive module 13 drive horizontal transmission subassembly 14 goes up and down, makes the tool of transmission on the horizontal transmission subassembly 14 gets into the difference in proper order tool installing frame 24.

As shown in fig. 1-2, in this embodiment, the AG glass spraying production line includes a plasma cleaning machine 4, an AG spraying machine 5, and an IR tunnel furnace 6 in this order, for cleaning, spraying, and curing the glass. The lower plate mechanism is positioned at the rear end of the AG glass spraying production line and is used for carrying out lower plate operation on the jig.

The jig is of a plate-shaped structure, and the area of the jig is larger than that of glass to be processed. The glass can be placed on the jig plate, the glass is borne by the jig, and the jig is driven to flow along a production line so as to be transported to different stations, so that AG spraying of the glass is completed.

After the AG glass spraying production line is started, the jig drives the glass to sequentially enter a plasma cleaning machine 4, an AG spraying machine 5 and an IR tunnel furnace 6, and the glass is sequentially cleaned, sprayed and solidified. Then, the jig drives the glass to be uploaded to a horizontal transmission assembly 14 of the jig transmission mechanism 1, and the horizontal transmission assembly 14 conveys the jig together with the glass to the jig stacking mechanism 2; meanwhile, the lifting driving module 13 of the jig conveying mechanism 1 drives the horizontal conveying assembly 14 to rise to the same height as the first-layer jig mounting frame 24 in the jig stacking mechanism 2, so that the jigs and the glass are conveyed into the first-layer jig mounting frame 24 on the horizontal conveying assembly 14. Then, the lifting driving module 13 drives the horizontal transmission assembly 14 to reset, and the horizontal transmission assembly 14 is lowered to the same height as the conveying plane of the production line so as to receive the next jig. And so on, thereby completing the lower plate operation of the plurality of jigs.

In this embodiment, the lower plate mechanism is added at the rear end of the AG glass spraying line for performing the lower plate operation on the jig. The automatic lower plate of the jig can be realized, and the production efficiency is improved.

Specifically, referring to fig. 7, the jig stacking mechanism 2 includes a first frame 21, vertical and spaced opposite base plates 22 are disposed on the first frame 21, the base plates 22 are parallel to the conveying direction of the production line, at least two support ribs 23 arranged along the vertical direction are disposed on the inner side surface of the base plates 22, and a jig mounting frame 24 is formed between the opposite two base plates 22 and the two support ribs 23 on the same horizontal plane.

Referring to fig. 9, the distance between the two substrates 22 on the first frame 21 is adapted to the width of the jig. The jig can be put between the two substrates 22 along the two support ribs 23 of the same layer from one end of the jig stacking mechanism 2, and the jig is pressed on the two support ribs 23 through both sides thereof. According to the above method, a plurality of jigs are sequentially stacked in the jig stacking mechanism 2.

As a preferred embodiment, referring to fig. 8, a groove 231 is formed on the top surface of the support rib 23, and a ball (not shown) is disposed in the groove 231, and protrudes from the groove 231. So set up, when the border of tool pack into tool stack mechanism 2 along two support ribs 23 of same layer, the border of tool and the top contact of ball, through the ball rotation in recess 231, can turn into rolling friction with the sliding friction of tool and support rib 23 to reduce the friction between tool and the support rib 23, the staff of being convenient for stacks the operation of tool, also can reduce the wearing and tearing to the tool.

In an embodiment, referring to fig. 7, a roller 25 is disposed at a bottom end of the jig stacking mechanism 2, and the jig stacking mechanism 2 can move in position through the roller 25. Specifically, the rollers 25 are respectively mounted at the four corners of the bottom end of the jig stacking mechanism 2. Thus, when the jig mounting frame 24 in the jig stacking mechanism 2 is filled with jigs, the jig stacking mechanism 2 can be moved out of the AG glass spraying production line, and the empty jig stacking mechanism 2 can be replaced on the AG glass spraying production line for the next round of lower plate operation.

Further, referring to fig. 3-4, a positioning frame 3 is disposed at the rear end of the jig transporting mechanism 1 along the transporting direction of the production line, and the jig stacking mechanism 2 is movable into the positioning frame 3. The positioning frame 3 provides a positioning reference in the space for the moving jig stacking mechanism 2, so that each jig stacking mechanism 2 can stop at the same position on the AG glass spraying production line, and smooth operation of the lower plate is ensured.

Specifically, referring to fig. 4, the positioning frame 3 includes a first frame 31, a second frame 32, and a third frame 33 that are sequentially connected end to end, where the first frame 31 is close to the jig transmission mechanism 1, the third frame 33 is far away from the jig transmission mechanism 1, the first frame 31 and the third frame 33 are both provided with rotation locking pieces 34 at one end far away from the second frame 32, and the rotation locking pieces 34 are used for limiting the jig stacking mechanism 2 in the positioning frame 3.

Referring to fig. 6, the rotation locking member 34 includes a base 341, a pin 342, and a blocking member 343, wherein the base 341 is fixed on the first frame 31/the third frame 33, and one end of the blocking member 343 is rotatably connected to the base 341 through the pin 342, so that the blocking member 343 can be rotated to the inner side of the positioning frame 3 or the outer side of the positioning frame 3. When the blocking member 343 is rotated to the outside of the positioning frame 3, the jig stacking mechanism 2 can freely enter and exit the positioning frame 3. When the jig stacking mechanism 2 enters the positioning frame 3, the blocking piece 343 can be swung to the inner side of the positioning frame 3 and can be blocked at the opening of the positioning frame 3, so that the jig stacking mechanism 2 is fixed in the positioning frame 3, the moving position of the jig stacking mechanism 2 is avoided, and the smooth operation of the lower plate is ensured.

Further, referring to fig. 4, a shock absorbing strip is disposed on an inner side surface of the second frame 32, and the shock absorbing strip is made of an elastic material. Thus, when the jig stacking mechanism 2 moves into the positioning frame 3, the jig stacking mechanism 2 is in contact with the elastic shock-absorbing strips, so that a buffering effect is achieved.

Further, referring to fig. 7 and 9, the jig stacking mechanism 2 further includes a first sensor 26, the first sensor 26 is disposed on the first rack 21, the number and positions of the first sensor 26 are in one-to-one correspondence with the jig mounting frames 24, and the first sensor 26 is used for detecting jigs in the jig mounting frames 24. The first sensor 26 is disposed at an end of the jig stacking mechanism 2 remote from the jig transporting mechanism 1. Whether a jig exists in the corresponding jig mounting frame 24 is detected through the first sensor 26, so that the jig transmission mechanism 1 can conveniently transmit the jig into the empty jig mounting frame 24.

Specifically, referring to fig. 4, the jig transmission mechanism 1 further includes a second frame 11 and a base 12, the lifting driving module 13 is disposed on the second frame 11, the base 12 is disposed at an output end of the lifting driving module 13, and the horizontal transmission assembly 14 is disposed on the base 12. Thus, when the lifting driving module 13 drives the base 12 to lift, the base 12 drives the horizontal transmission assembly 14 to lift synchronously. The horizontal transmission assembly 14 comprises at least two conveyor belts which are arranged side by side, and the horizontal transmission assembly 14 can drive the jig to be conveyed backwards through the rotation of the conveyor belts.

In an embodiment, referring to fig. 4-5, the horizontal conveying assembly 14 includes at least two conveyor belts arranged side by side, a pushing device 15 is disposed at a distance between at least two of the conveyor belts, and the pushing device 15 is used for assisting the conveyor belts to push the jig into the jig mounting frame 24. The pushing device 15 comprises a pushing cylinder and a pushing plate, the pushing cylinder drives the pushing plate to horizontally stretch and retract, and the pushing device can play a role in assisting pushing when the conveying belt does not completely convey the jig into the jig mounting frame 24, so that the jig is ensured to be completely pushed into the jig mounting frame 24.

Referring to fig. 1-2, the AG glass spraying line of the present utility model further includes a lower plate mechanism as described in any one of the above, and the lower plate mechanism is located at a rear end of the AG glass spraying line. AG glass spraying production line includes wiper mechanism, spraying mechanism, curing mechanism in proper order. In addition, the front end of AG glass spraying production line can also be provided with an upper plate mechanism 7 for automatically feeding the jig.

The foregoing detailed description is directed to embodiments of the utility model, and is not intended to limit the scope of the utility model, but rather to cover all modifications and variations within the scope of the utility model.

Claims (10)

1. Lower plate mechanism of AG glass spraying production line, its characterized in that: including tool transport mechanism (1), tool that sets gradually along production line direction of delivery stack mechanism (2), tool stacks mechanism (2) and includes at least two tool installing frame (24) of arranging in proper order along vertical direction, tool transport mechanism (1) are including lift drive module (13), horizontal transmission subassembly (14), lift drive module (13) drive horizontal transmission subassembly (14) go up and down, make the tool of transmission on horizontal transmission subassembly (14) gets into the difference in proper order tool installing frame (24).

2. The lower plate mechanism of the AG glass spray coating production line according to claim 1, wherein: the jig stacking mechanism (2) comprises a first rack (21), vertical substrates (22) with opposite intervals are arranged on the first rack (21), the substrates (22) are parallel to the conveying direction of the production line, at least two support ribs (23) which are arranged along the vertical direction are arranged on the inner side surface of each substrate (22), and a jig mounting frame (24) is formed between each substrate (22) and two support ribs (23) on the same horizontal plane.

3. The lower plate mechanism of the AG glass spray coating production line according to claim 2, wherein: the top surface of support rib (23) has seted up recess (231), be equipped with the ball in recess (231), the ball protrusion in recess (231).

4. The lower plate mechanism of the AG glass spray coating production line according to claim 1, wherein: the bottom of the jig stacking mechanism (2) is provided with a roller (25), and the jig stacking mechanism (2) can move in position through the roller (25).

5. The lower plate mechanism of the AG glass spray coating production line according to claim 4, wherein: along the production line direction of delivery, the rear end of tool transport mechanism (1) is provided with positioning frame (3), tool stacks mechanism (2) movable to in positioning frame (3).

6. The lower plate mechanism of the AG glass spray coating production line according to claim 5, wherein: the positioning frame (3) is provided with an opening, the positioning frame (3) is provided with a rotation locking piece (34) at the opening, and the rotation locking piece (34) is used for limiting the jig stacking mechanism (2) in the positioning frame (3).

7. The lower plate mechanism of the AG glass spray coating production line according to claim 2, wherein: the jig stacking mechanism (2) further comprises first sensors (26), the first sensors (26) are arranged on the first rack (21), the number and the positions of the first sensors (26) are in one-to-one correspondence with those of the jig mounting frames (24), and the first sensors (26) are used for detecting jigs in the jig mounting frames (24).

8. The lower plate mechanism of the AG glass spray coating production line according to claim 1, wherein: the jig transmission mechanism (1) further comprises a second frame (11) and a base (12), the lifting driving module (13) is arranged on the second frame (11), the base (12) is arranged at the output end of the lifting driving module (13), and the horizontal transmission assembly (14) is arranged on the base (12).

9. The lower plate mechanism of the AG glass spray coating production line according to claim 1, wherein: the horizontal transmission assembly (14) comprises at least two conveyor belts which are arranged side by side, pushing devices (15) are arranged at intervals of the at least two conveyor belts, and the pushing devices (15) are used for assisting the conveyor belts to push the jig into the jig mounting frame (24).

10. An AG glass spray coating line comprising the lower plate mechanism according to any one of claims 1 to 9, characterized in that: the lower plate mechanism is positioned at the rear end of the AG glass spraying production line.