CN219785244U - Spraying production line - Google Patents
Spraying production line Download PDFInfo
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- CN219785244U CN219785244U CN202320738288.7U CN202320738288U CN219785244U CN 219785244 U CN219785244 U CN 219785244U CN 202320738288 U CN202320738288 U CN 202320738288U CN 219785244 U CN219785244 U CN 219785244U
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- extrusion
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- 238000005507 spraying Methods 0.000 title claims abstract description 42
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 12
- 238000012937 correction Methods 0.000 claims abstract description 29
- 238000001125 extrusion Methods 0.000 claims description 53
- 239000007921 spray Substances 0.000 claims description 46
- 230000007306 turnover Effects 0.000 claims description 16
- 230000005540 biological transmission Effects 0.000 claims description 10
- 239000007788 liquid Substances 0.000 claims description 5
- 238000012545 processing Methods 0.000 description 4
- 238000000889 atomisation Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000005389 magnetism Effects 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000003044 adaptive effect Effects 0.000 description 1
- 230000004075 alteration Effects 0.000 description 1
- 230000001174 ascending effect Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000013508 migration Methods 0.000 description 1
- 230000005012 migration Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 239000003973 paint Substances 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 239000002994 raw material Substances 0.000 description 1
- 238000011160 research Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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- Spray Control Apparatus (AREA)
Abstract
The utility model discloses a spraying production line, which comprises the following steps: the device comprises a pair of concave transportation blocks, a concave rotary overturning block and a pair of spraying brackets, wherein the pair of concave transportation blocks are respectively arranged on two sides of the concave rotary overturning block, the pair of spraying brackets are respectively arranged on the pair of concave transportation blocks, a correction structure is arranged on the pair of concave transportation blocks, an overturning structure is arranged on the concave rotary overturning block, and a spraying structure is arranged on the pair of spraying brackets; the utility model relates to the technical field of automatic spraying, wherein the plate is horizontally aligned, so that the plate is extruded to the central line of a concave conveying block to horizontally move, and is turned over by 180 degrees through a turning structure, so that the upper and lower ends of the plate are sprayed, and stable automatic production is realized through mechanical automatic correction and turning over in the vertical direction.
Description
Technical Field
The utility model relates to the technical field of automatic spraying, in particular to a spraying production line.
Background
Nowadays, various products are often designed and processed in various ways to improve market competitiveness, and some manufacturers spray paint on the products in terms of processing to improve the aesthetic degree of the products, so that the products are favored by consumers and further improve the market competitiveness of the products. Along with the continuous maturity of automated technology, can carry out the spraying processing production line of spraying processing to the work piece automatically also is gradually pervasive and perfect, however, in the practical application in-process, current spraying processing production line generally can have following technical problem: the existing spraying equipment needs to manually align the workpiece before the workpiece is sent into a spraying device, so that time and labor are consumed, and in view of the fact, intensive researches on the problems are conducted, and the scheme is generated.
Disclosure of Invention
In order to achieve the above purpose, the utility model is realized by the following technical scheme: a spray line comprising: the device comprises a pair of concave transportation blocks, a concave rotary overturning block and a pair of spraying brackets, wherein the pair of concave transportation blocks are respectively arranged on two sides of the concave rotary overturning block, the pair of spraying brackets are respectively arranged on the pair of concave transportation blocks, a correction structure is arranged on the pair of concave transportation blocks, an overturning structure is arranged on the concave rotary overturning block, and a spraying structure is arranged on the pair of spraying brackets;
the correcting structure comprises: the device comprises a plurality of concave correction bearing blocks, a plurality of correction angle shafts, a plurality of I-shaped brackets, a plurality of correction rollers, a plurality of circular arc limiting pipes, a plurality of circular arc limiting inner pipes, a plurality of telescopic limiting discs, a plurality of circular arc telescopic sleeve springs and a plurality of limiting circular arc shafts;
the utility model provides a plurality of concave type correction bearing block even install in a pair of concave type transport block and a pair of the inboard of spraying support, a plurality of correct the angle axle respectively cartridge in a plurality of on the concave type correction bearing block, a plurality of I-shaped support is installed respectively in a plurality of correct the angle epaxial, a plurality of correct the cylinder and install respectively in a plurality of on the I-shaped support, a plurality of circular arc spacing pipe even install in a pair of on the concave type transport block, a plurality of circular arc spacing inner tube movable cartridge respectively in a plurality of the inboard of circular arc spacing pipe, a plurality of flexible spacing disc is installed respectively in a plurality of on the circular arc spacing inner tube, a plurality of spacing circular arc axle cartridge respectively in a plurality of the inboard of circular arc spacing inner tube, a plurality of circular arc flexible suit spring respectively in a plurality of spacing circular arc axle.
Preferably, the overturning structure comprises: the device comprises a pair of concave circular blocks, a pair of rotary overturning discs, a pair of rotary transmission helical gear circular rings, a pair of rotary driving helical gears, a pair of rotary overturning driving machines, two pairs of vertical pushing extrusion blocks, a plurality of extrusion rollers, two pairs of horizontal magnet blocks, two pairs of horizontal extrusion electromagnets, a pair of horizontal pushing driving machines and a pair of horizontal pushing gear sets;
the pair of concave type ring blocks are inserted on the concave type rotary overturning blocks, the pair of rotary overturning discs are respectively movably inserted on the inner sides of the pair of concave type ring blocks, the pair of rotary transmission bevel gear rings are installed on the pair of rotary overturning discs, the pair of rotary overturning driving machines are respectively installed on the pair of concave type ring blocks, the pair of rotary driving bevel gears are respectively installed on the driving ends of the pair of rotary overturning driving machines, the pair of rotary driving bevel gears are respectively engaged with the pair of rotary transmission bevel gear rings, the pair of rotary overturning discs are respectively provided with a pair of lifting extrusion grooves, the two pairs of vertical pushing extrusion blocks are respectively movably inserted on the inner sides of the two pairs of lifting extrusion grooves, the two pairs of horizontal extrusion electromagnets are respectively installed on the inner sides of the two pairs of lifting extrusion grooves, and a plurality of extrusion rollers are respectively installed on the two pairs of vertical extrusion blocks, the pair of horizontal extrusion electromagnets are respectively installed on the two pairs of extrusion driving ends of extrusion rollers, and the pair of extrusion rollers are respectively connected with the pair of extrusion driving ends of extrusion rollers.
Preferably, the spraying structure comprises: a pair of spray shunt pipes, three shunt pipes, a spray box, a spray liquid pump and a pair of drainage spray pipes;
the spray pump is arranged on the spray box, the three shunt pipes are arranged on the spray pump, the drainage spray pipes are arranged on the three shunt pipes, and the drainage spray pipes are respectively connected to the pair of the spray shunt pipes.
Preferably, a pair of spray shunt pipes are respectively provided with an atomization spray head.
Preferably, a pair of the concave transport blocks are respectively provided with an infrared sensor.
Preferably, a pair of rotary overturning discs are respectively provided with a plurality of ball grooves, and the inner sides of the ball grooves are respectively provided with movable balls.
Advantageous effects
The utility model provides a spraying production line. The beneficial effects are as follows: this spraying production line through carrying out horizontal calibration to panel to extrude the central line of concave transport piece with panel on horizontal migration, carry out 180 degrees angle upset with panel through flip structure, thereby reach and spray both ends about carrying out to panel, thereby correct and the ascending upset of vertical direction through mechanical automation, thereby reach the automated production with stable.
Drawings
Fig. 1 is a schematic front sectional view of a spraying production line according to the present utility model.
Fig. 2 is a schematic top cross-sectional view of a spray coating line according to the present utility model.
In the figure: 1. a concave transport block; 2. a concave rotary overturning block; 3. spraying a bracket; 4. concave correction bearing blocks; 5. correcting an angle axis; 6. an I-shaped bracket; 7. correcting the roller; 8. an arc limiting tube; 9. an arc limiting inner tube; 10. a telescopic limit disc; 11. the arc telescopic sleeve spring; 12. limiting the arc shaft; 13. concave ring blocks; 14. rotating the overturning disc; 15. a rotary transmission helical gear ring; 16. a rotary drive helical gear; 17. a rotary overturning driving machine; 18. pushing the extrusion block vertically; 19. an extrusion roller; 20. a horizontal magnet block; 21. horizontally extruding an electromagnet; 22. a horizontal pushing driving machine; 23. a horizontal pushing gear set.
Detailed Description
All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.
Examples:
as shown in fig. 1-2, a pair of concave transport blocks 1 are respectively installed on two sides of the concave rotary turnover block 2, a pair of spraying brackets 3 are respectively installed on the pair of concave transport blocks 1, a correction structure is installed on the pair of concave transport blocks 1, a turnover structure is installed on the concave rotary turnover block 2, and a spraying structure is installed on the pair of spraying brackets 3;
specifically, the correcting structure comprises: the device comprises a plurality of concave correction bearing blocks 4, a plurality of correction angle shafts 5, a plurality of I-shaped brackets 6, a plurality of correction rollers 7, a plurality of circular arc limiting pipes 8, a plurality of circular arc limiting inner pipes 9, a plurality of telescopic limiting discs 10, a plurality of circular arc telescopic sleeve springs 11 and a plurality of limiting circular arc shafts 12;
specifically, a plurality of concave correction bearing blocks 4 are evenly installed in a pair of concave transportation blocks 1 and a pair of the inboard of spraying support 3, a plurality of correction angle axle 5 respectively cartridge in a plurality of concave correction bearing blocks 4, a plurality of I-shaped support 6 respectively install in a plurality of correction angle axle 5, a plurality of correction cylinder 7 respectively install in a plurality of I-shaped support 6, a plurality of circular arc spacing pipe 8 evenly install in a pair of concave transportation blocks 1, a plurality of circular arc spacing inner tube 9 respectively movable cartridge in a plurality of circular arc spacing pipe 8's inboard, a plurality of flexible spacing disc 10 respectively install in a plurality of circular arc spacing inner tube 9, a plurality of spacing circular arc axle 12 respectively cartridge in a plurality of circular arc spacing pipe 8's inboard, and a plurality of spacing circular arc axle 12 respectively movable cartridge in a plurality of circular arc spacing inner tube 9's inboard, a plurality of flexible spring suit 11 respectively in a plurality of circular arc axle 12 is spacing.
It should be noted that, in the above, the circular arc telescopic sleeve springs 11 inside the circular arc limiting pipes 8 are respectively telescopic along the circular arc limiting shafts 12, the circular arc telescopic sleeve springs 11 are respectively telescopic to drive the telescopic limiting discs 10 on the circular arc telescopic sleeve springs, the circular arc limiting inner pipes 9 are driven by the circular arc telescopic limiting discs 10, the I-shaped brackets 6 are respectively driven by the circular arc limiting inner pipes 9, the correction roller 7 is driven by the I-shaped brackets 6, the I-shaped brackets 6 rotate along the correction angle shafts 5, the purpose that the correction roller 7 is extruded and limited along the circular arc shape on the horizontal direction of the plate is achieved, the matching of the concave correction bearing blocks 4 and the correction angle shafts 5 is achieved, the I-shaped brackets 6 are extruded in a flexible circular arc shape, and the magnetic yokes extrude the plate to the center position of the concave transportation block 1.
As shown in fig. 1-2, the flip structure comprises: a pair of concave circular blocks 13, a pair of rotary overturning discs 14, a pair of rotary transmission helical gear circular rings 15, a pair of rotary driving helical gears 16, a pair of rotary overturning driving machines 17, two pairs of vertical pushing extrusion blocks 18, a plurality of extrusion rollers 19, two pairs of horizontal magnet blocks 20, two pairs of horizontal extrusion electromagnets 21, a pair of horizontal pushing driving machines 22 and a pair of horizontal pushing gear sets 23;
specifically, a pair of concave ring blocks 13 are inserted on the concave rotary turnover block 2, a pair of rotary turnover discs 14 are respectively movably inserted on the inner sides of a pair of concave ring blocks 13, a pair of rotary transmission helical gear rings 15 are installed on a pair of rotary turnover discs 14, a pair of rotary turnover driving machines 17 are respectively installed on a pair of concave ring blocks 13, a pair of rotary driving helical gears 16 are respectively installed on driving ends of a pair of rotary turnover driving machines 17, a pair of rotary driving helical gears 16 are respectively engaged with a pair of rotary transmission helical gear rings 15 through gears, a pair of lifting extrusion grooves are respectively formed in a pair of rotary turnover discs 14, two pairs of vertical pushing extrusion blocks 18 are respectively movably inserted on inner sides of two pairs of lifting extrusion grooves, two pairs of horizontal magnet blocks 20 are respectively provided with two pairs of vertical pushing extrusion blocks 18, two pairs of horizontal extrusion electromagnets 21 are respectively installed on the inner sides of two pairs of lifting extrusion grooves, the two pairs of horizontal extrusion driving machines 19 are respectively connected with a plurality of horizontal extrusion gear sets 19, and a plurality of horizontal extrusion driving machines are respectively connected with a plurality of horizontal extrusion driving rolls 19.
It should be noted that, in the above description, the plate is inserted between the plurality of extrusion rollers 19, two pairs of horizontal extrusion electromagnets 21 are electrified, so that the two pairs of horizontal extrusion electromagnets 21 generate magnetism, the two pairs of horizontal magnet blocks 20 are repelled by magnetism, the two pairs of horizontal magnet blocks 20 respectively drive the vertical pushing blocks thereon, the two pairs of vertical pushing blocks are relatively telescopic, thereby achieving the purpose of driving the plurality of extrusion rollers 19 thereon, the plurality of extrusion rollers 19 are made to stretch in the vertical direction, the rotary turnover driving machine 17 is driven to rotate, the rotary driving helical gear 16 on the driving end of the rotary turnover driving machine 17 is driven to rotate, the rotary turnover disc 14 on the rotary turnover driving helical gear 15 is driven to rotate along the inner side of the concave type circular ring block 13, the rotary turnover disc 14 drives the plurality of vertical pushing extrusion blocks 18 thereon to rotate, thereby achieving the purpose of turning the plate 180 degrees, the horizontal pushing driving machine 22 is driven to rotate, the horizontal pushing gear set 23 is driven to drive the rotary turnover disc 15, and the plate is driven to rotate by the horizontal pushing gear set 23 to push the plate through the horizontal pushing driving gear set 23, thereby achieving the purpose of transporting the plate.
As shown in fig. 1-2, the spray structure comprises: a pair of spray shunt pipes, three shunt pipes, a spray box, a spray liquid pump and a pair of drainage spray pipes;
specifically, a pair of spray shunt pipes are respectively installed on a pair of spray brackets 3, a spray pump is installed on the spray box, three shunt pipes are installed on the spray pump, a pair of drainage spray pipes are installed on the three shunt pipes, and a pair of drainage spray pipes are respectively connected to a pair of spray shunt pipes.
In the above, the raw materials inside the spraying box are drained to the three shunt pipes through the spraying liquid pump, the liquid is drained to the inner sides of the pair of spraying shunt pipes through the three shunt pipes, and the pair of plates are sprayed through the pair of spraying shunt pipes, so that the effect of spraying the upper end and the lower end of the plates is achieved.
Preferably, a pair of spray shunt pipes are respectively provided with an atomization nozzle.
Preferably, further, a pair of the concave transport blocks 1 are respectively provided with an infrared sensor.
Preferably, a plurality of ball grooves are respectively formed in the pair of rotary overturning discs 14, and moving balls are respectively arranged on the inner sides of the plurality of ball grooves.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. A spray line comprising: the spraying device comprises a pair of concave transportation blocks, a pair of concave rotary overturning blocks and a pair of spraying brackets, and is characterized in that the pair of concave transportation blocks are respectively arranged on two sides of the concave rotary overturning blocks, the pair of spraying brackets are respectively arranged on the pair of concave transportation blocks, a correction structure is arranged on the pair of concave transportation blocks, an overturning structure is arranged on the concave rotary overturning blocks, and a spraying structure is arranged on the pair of spraying brackets;
the correcting structure comprises: the device comprises a plurality of concave correction bearing blocks, a plurality of correction angle shafts, a plurality of I-shaped brackets, a plurality of correction rollers, a plurality of circular arc limiting pipes, a plurality of circular arc limiting inner pipes, a plurality of telescopic limiting discs, a plurality of circular arc telescopic sleeve springs and a plurality of limiting circular arc shafts;
the utility model provides a plurality of concave type correction bearing block even install in a pair of concave type transport block and a pair of the inboard of spraying support, a plurality of correct the angle axle respectively cartridge in a plurality of on the concave type correction bearing block, a plurality of I-shaped support is installed respectively in a plurality of correct the angle epaxial, a plurality of correct the cylinder and install respectively in a plurality of on the I-shaped support, a plurality of circular arc spacing pipe even install in a pair of on the concave type transport block, a plurality of circular arc spacing inner tube movable cartridge respectively in a plurality of the inboard of circular arc spacing pipe, a plurality of flexible spacing disc is installed respectively in a plurality of on the circular arc spacing inner tube, a plurality of spacing circular arc axle cartridge respectively in a plurality of the inboard of circular arc spacing inner tube, a plurality of circular arc flexible suit spring respectively in a plurality of spacing circular arc axle.
2. The spray line of claim 1, wherein the turnover structure comprises: the device comprises a pair of concave circular blocks, a pair of rotary overturning discs, a pair of rotary transmission helical gear circular rings, a pair of rotary driving helical gears, a pair of rotary overturning driving machines, two pairs of vertical pushing extrusion blocks, a plurality of extrusion rollers, two pairs of horizontal magnet blocks, two pairs of horizontal extrusion electromagnets, a pair of horizontal pushing driving machines and a pair of horizontal pushing gear sets;
the pair of concave type ring blocks are inserted on the concave type rotary overturning blocks, the pair of rotary overturning discs are respectively movably inserted on the inner sides of the pair of concave type ring blocks, the pair of rotary transmission bevel gear rings are installed on the pair of rotary overturning discs, the pair of rotary overturning driving machines are respectively installed on the pair of concave type ring blocks, the pair of rotary driving bevel gears are respectively installed on the driving ends of the pair of rotary overturning driving machines, the pair of rotary driving bevel gears are respectively engaged with the pair of rotary transmission bevel gear rings, the pair of rotary overturning discs are respectively provided with a pair of lifting extrusion grooves, the two pairs of vertical pushing extrusion blocks are respectively movably inserted on the inner sides of the two pairs of lifting extrusion grooves, the two pairs of horizontal extrusion electromagnets are respectively installed on the inner sides of the two pairs of lifting extrusion grooves, and a plurality of extrusion rollers are respectively installed on the two pairs of vertical extrusion blocks, the pair of horizontal extrusion electromagnets are respectively installed on the two pairs of extrusion driving ends of extrusion rollers, and the pair of extrusion rollers are respectively connected with the pair of extrusion driving ends of extrusion rollers.
3. A spray line according to claim 2, wherein the spray structure comprises: a pair of spray shunt pipes, three shunt pipes, a spray box, a spray liquid pump and a pair of drainage spray pipes;
the spray pump is arranged on the spray box, the three shunt pipes are arranged on the spray pump, the drainage spray pipes are arranged on the three shunt pipes, and the drainage spray pipes are respectively connected to the pair of the spray shunt pipes.
4. A spray line according to claim 3, wherein a pair of said spray manifolds are each provided with an atomizer.
5. A spray line according to claim 4, wherein a pair of said concave transport blocks are each provided with an infrared sensor.
6. The spraying production line according to claim 5, wherein a plurality of ball grooves are respectively formed in the pair of rotary overturning discs, and moving balls are respectively arranged on the inner sides of the plurality of ball grooves.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320738288.7U CN219785244U (en) | 2023-04-06 | 2023-04-06 | Spraying production line |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320738288.7U CN219785244U (en) | 2023-04-06 | 2023-04-06 | Spraying production line |
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CN219785244U true CN219785244U (en) | 2023-10-03 |
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CN202320738288.7U Active CN219785244U (en) | 2023-04-06 | 2023-04-06 | Spraying production line |
Country Status (1)
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CN (1) | CN219785244U (en) |
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2023
- 2023-04-06 CN CN202320738288.7U patent/CN219785244U/en active Active
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