CN210207473U

CN210207473U - Fluorocarbon heat-preservation decorative board roller coat production line

Info

Publication number: CN210207473U
Application number: CN201920361623.XU
Authority: CN
Inventors: Zhiming Ren; 任志明
Original assignee: Jiangsu Zhuoer New Material Technology Co Ltd
Current assignee: Jiangsu Zhuoer New Material Technology Co Ltd
Priority date: 2019-03-21
Filing date: 2019-03-21
Publication date: 2020-03-31
Anticipated expiration: 2029-03-21

Abstract

The utility model provides a fluorocarbon insulation decorative board roller coat production line, relate to insulation decorative board production technical field, including the material loading machine that sets gradually, first conveyer, first dust shaker, first roller coat machine, first drying device, the second conveyer, first grinder, the second dust shaker, the third conveyer, the second roller coat machine, second drying device, the fourth conveyer, the second grinder, the third dust shaker, surface treatment device, the fifth conveyer, the sixth conveyer, first turning to the machine, the seventh conveyer, the feeder, third drying device, the ejection of compact machine, the eighth conveyer, the second turns to the machine, cooling device, the ninth conveyer, the laminating machine, tenth conveyer and blanking machine. The utility model discloses can carry out effectual processing to fluorocarbon plaque base plate to can obtain the fluorocarbon plaque that the surface ornamentation accords with actual demand.

Description

Fluorocarbon heat-preservation decorative board roller coat production line

Technical Field

The utility model relates to a heat preservation decorative board production technical field.

Background

At present, the fluorocarbon decorative plate is a decorative plate, has an appearance surface similar to a fluorocarbon material, has a good heat preservation and heat insulation function, and is light and handy. In the production process of the existing fluorocarbon decorative plate, a fluorocarbon decorative plate substrate subjected to primary coating treatment needs to be provided, and then a series of processing treatments are carried out on the primary coated fluorocarbon decorative plate substrate, so that a surface texture meeting the requirements is formed. However, in the production process of the existing fluorocarbon decorative plate, the continuity of each production machine is poor, and the surface texture effect of the obtained fluorocarbon decorative plate is not ideal enough.

SUMMERY OF THE UTILITY MODEL

To the problem among the correlation technique, the utility model aims at providing a can realize automated production, each production machine continuity is good, fluorine carbon heat preservation decorative board roller coat production line that machining efficiency is high.

The utility model discloses a material loading machine, first conveyer, first dust shaker, first roller coat machine, first drying device, the second conveyer, first grinder, the second dust shaker, the third conveyer, the second roller coat machine, second drying device, the fourth conveyer, the second grinder, the third dust shaker, surface treatment device, the fifth conveyer, the sixth conveyer, first steering machine, the seventh conveyer, the feeder, third drying device, ejection of compact machine, the eighth conveyer, the second steering machine, cooling device, the ninth conveyer, the laminating machine, tenth conveyer and the blanking machine that set gradually.

Further, the surface treatment device comprises an eleventh conveyor, a first finishing machine, a twelfth conveyor, a second finishing machine, a thirteenth conveyor, a third finishing machine, a fourth drying device, a fourth finishing machine, a fourteenth conveyor, a fifth finishing machine, a fifteenth conveyor, a sixth finishing machine, a fifth drying device and a sixteenth conveyor which are arranged in sequence; the first finishing machine, the second finishing machine, the third finishing machine, the fourth finishing machine, the fifth finishing machine and the sixth finishing machine are all single-roller roll coating machines; and the fourth drying device and the fifth drying device are both hot air drying tunnels.

Furthermore, the first roll coater is a putty double-roll coater, and the second roll coater is a UV primer double-roll coater.

Further, the first drying device and the second drying device are both three-lamp UV curing machines, and the third drying device is a folding drying tunnel.

Further, the first sander and the second sander are both double-belt primer sanders.

Further, the first steering machine and the second steering machine are both 90-degree steering machines; the seventh conveyor and the eighth conveyor are both multi-row buffer conveyors; the feeder is a multi-row feeder, and the discharging machine is a multi-row turnover flattening machine.

Further, the cooling device is a cooling tunnel, and the laminating machine is a laminating and film cutting integrated machine.

Further, the feeding machine is a gantry suction disc type automatic feeding machine, and the blanking machine is a gantry suction disc type automatic blanking machine.

Further, the first conveyor, the seventh conveyor, the ninth conveyor, the tenth conveyor and the sixteenth conveyor are all centering conveyors.

The utility model can effectively process the fluorocarbon decorative plate substrate and can obtain the fluorocarbon decorative plate with the surface texture meeting the actual requirement; compared with the traditional production mode, the production machine of the production line has good continuity and high processing efficiency, realizes automatic production, reduces labor force and production cost, and is easy to popularize and use.

Drawings

Fig. 1 is a schematic block diagram of the present invention.

Fig. 2 is a schematic block diagram of the surface treatment device of the present invention.

In the figure: 1 feeding machine, 2 first conveyor, 3 first dust remover, 4 first roller coater, 5 first drying device, 6 second conveyor, 7 first sander, 8 second dust remover, 9 third conveyor, 10 second roller coater, 11 second drying device, 12 fourth conveyor, 13 second sander, 14 third dust remover, 15 fifth conveyor, 16 sixth conveyor, 17 first diverter, 18 seventh conveyor, 19 feeder, 20 third drying device, 21 discharging machine, 22 eighth conveyor, 23 second diverter, 24 cooling device, 25 ninth conveyor, 26 laminating machine, 27 tenth conveyor, 28 discharging machine, 29 eleventh conveyor, 30 first finish paint machine, 31 twelfth conveyor, 32 second finish paint machine, 33 thirteenth conveyor, 34 third finish paint machine, 35 fourth drying device, 36 fourth finish paint conveyor, 37 fourteenth finish paint conveyor, 38 fifth finish paint conveyor, A fifteenth conveyor 39, a sixth finishing machine 40, a fifth drying device 41 and a sixteenth conveyor 42.

Detailed Description

As shown in fig. 1-2, the roll coating production line for the fluorocarbon heat-insulating decorative plate comprises a feeding machine 1, a first conveyor 2, a first dust remover 3, a first roll coating machine 4, a first drying device 5, a second conveyor 6, a first sanding machine 7, a second dust remover 8, a third conveyor 9, a second roll coating machine 10, a second drying device 11, a fourth conveyor 12, a second sanding machine 13, a third dust remover 14, a surface treatment device, a fifth conveyor 15, a sixth conveyor 16, a first steering machine 17, a seventh conveyor 18, a feeding machine 19, a third drying device 20, a discharging machine 21, an eighth conveyor 22, a second steering machine 23, a cooling device 24, a ninth conveyor 25, a laminating machine 26, a tenth conveyor 27 and a discharging machine 28, which are sequentially arranged.

The surface treatment device comprises an eleventh conveyor 29, a first finish paint machine 30, a twelfth conveyor 31, a second finish paint machine 32, a thirteenth conveyor 33, a third finish paint machine 34, a fourth drying device 35, a fourth finish paint machine 36, a fourteenth conveyor 37, a fifth finish paint machine 38, a fifteenth conveyor 39, a sixth finish paint machine 40, a fifth drying device 41 and a sixteenth conveyor 42 which are sequentially arranged; the first finishing machine 30, the second finishing machine 32, the third finishing machine 34, the fourth finishing machine 36, the fifth finishing machine 38 and the sixth finishing machine 40 are all single-roller roll coating machines; the fourth drying device 35 and the fifth drying device 41 are both hot air drying tunnels.

In this embodiment, the surface of the fluorocarbon substrate is subjected to finish rolling treatment by using six single rollers, and is dried after being subjected to three single roller treatments, and then is subjected to three single roller treatments, so that the texture effect formed by the roller treatments is better.

Specifically, the first roll coater 4 is a putty double-roll coater, and the second roll coater 10 is a UV primer double-roll coater.

In the embodiment, the pretreated fluorocarbon-based plate is roll-coated by a putty double-roll coating machine and a UV primer double-roll coating machine, so that the texture formed by roll coating has a better effect.

Specifically, the first drying device 5 and the second drying device 11 are both three-lamp UV curing machines, and the third drying device 20 is a folding drying tunnel.

In the embodiment, the surface of the fluorocarbon substrate is irradiated by strong ultraviolet light emitted by the UV light source, so that the aim of rapid curing is fulfilled; and drying the fluorocarbon substrate by adopting a folding drying tunnel.

Specifically, the first sander 7 and the second sander 13 are both double-primer sanders.

In this embodiment, a double-primer sander is used to sand the surface of the fluorocarbon substrate, the mesh number is 200-240 meshes, and a dust remover is used to remove dust from the sanded fluorocarbon substrate.

Specifically, the first steering gear 17 and the second steering gear 23 are both 90-degree steering gears; the seventh conveyor 18 and the eighth conveyor 22 are both multi-row buffer conveyors; the feeder 19 is a multi-row feeder, and the discharger 21 is a multi-row turnover leveler.

In this embodiment, adopt 90 degrees steering gear to turn to 90 degrees to fluorocarbon base plate, satisfy the sequencer demand, its multiseriate buffering conveyer has the buffering transport effect, and multiseriate feeder is used for placing the vertical range of flitch, and multiseriate turn-over leveler is used for leveling the flitch turn-over.

Specifically, the cooling device 24 is a cooling tunnel, and the laminating machine 26 is a laminating and film cutting integrated machine.

In this embodiment, the cooling tunnel is used for the fluorocarbon base plate cooling treatment, and tectorial membrane cutting all-in-one is used for tectorial membrane cutting in an organic whole to the fluorocarbon base plate.

Specifically, the feeding machine 1 is a gantry suction cup type automatic feeding machine, and the blanking machine 28 is a gantry suction cup type automatic blanking machine.

In this embodiment, realized automatic material loading, unloading, reduced workman's intensity of labour, improved production efficiency.

Specifically, the first conveyor 2, the seventh conveyor 18, the ninth conveyor 25, the tenth conveyor 27, and the sixteenth conveyor 42 are all centering conveyors.

In this embodiment, adopt centering conveyer to carry out centering to the fluorocarbon substrate, satisfy the demand of follow-up.

The utility model discloses a working process: conveying the pretreated fluorocarbon substrate to a first conveyor 2 through a feeding machine 1, conveying the pretreated fluorocarbon substrate to a first dust remover 3 through the first conveyor 2 to remove dust on the surface of the substrate, performing putty roll coating through a first roller coater 4, performing drying treatment through a first drying device 5, conveying the substrate to a first sander 7 through a second conveyor 6 to perform sanding treatment, performing dust removal treatment on the sanded surface through a second dust remover 8, conveying the substrate to a second roller coater 10 through a third conveyor 9, performing UV (ultraviolet) primer double-roller roll coating on the fluorocarbon substrate, performing drying treatment through a second drying device 11, conveying the substrate to a second sander 13 through a fourth conveyor 12 to perform sanding treatment, and performing dust removal treatment through a third dust remover 14; the surface of the fluorocarbon substrate is subjected to finish rolling coating treatment sequentially through a first finish machine 30, a second finish machine 32 and a third finish machine 34, is dried through a fourth drying device 35, is subjected to finish rolling coating treatment again through a fourth finish machine 36, a fifth finish machine 38 and a sixth finish machine 40, is dried through a fifth drying device 41, is conveyed to a first steering machine 17 through a sixteenth conveyor 42, a fifth conveyor 15 and a sixth conveyor 16 to steer the fluorocarbon substrate, is conveyed to a third drying device 20 through a seventh conveyor 18 and a feeder 19 to be dried, is conveyed to a second steering machine 23 through a discharging machine 21 and an eighth conveyor 22 to be steered, is cooled through a cooling device 24, is conveyed to a film laminating machine 26 through a ninth conveyor 25 to be subjected to film laminating and cutting, is conveyed to a blanking machine 28 through a tenth conveyor 27 to be blanked, the whole process is now complete.

In conclusion, the roller coating production line of the fluorocarbon heat-insulation decorative plate can effectively process the substrate of the fluorocarbon decorative plate and can obtain the fluorocarbon decorative plate with the surface texture meeting the actual requirement; the production machine has good continuity and high processing efficiency.

Claims

1. The roller coating production line for the fluorocarbon heat-insulating decorative plate is characterized by comprising a feeding machine (1), a first conveyor (2), a first dust remover (3), a first roller coater (4), a first drying device (5), a second conveyor (6), a first sanding machine (7), a second dust remover (8), a third conveyor (9), a second roller coater (10), a second drying device (11), a fourth conveyor (12), a second sanding machine (13), a third dust remover (14), a surface treatment device, a fifth conveyor (15), a sixth conveyor (16), a first steering machine (17), a seventh conveyor (18), a feeding machine (19), a third drying device (20), a discharging machine (21), an eighth conveyor (22), a second steering machine (23), a cooling device (24), a ninth conveyor (25), A laminating machine (26), a tenth conveyor (27) and a blanking machine (28).

2. A roller coating production line for fluorocarbon heat-insulating decorative boards as claimed in claim 1, wherein the surface treatment device comprises an eleventh conveyor (29), a first finishing machine (30), a twelfth conveyor (31), a second finishing machine (32), a thirteenth conveyor (33), a third finishing machine (34), a fourth drying device (35), a fourth finishing machine (36), a fourteenth conveyor (37), a fifth finishing machine (38), a fifteenth conveyor (39), a sixth finishing machine (40), a fifth drying device (41) and a sixteenth conveyor (42) which are arranged in sequence; the first finish painting machine (30), the second finish painting machine (32), the third finish painting machine (34), the fourth finish painting machine (36), the fifth finish painting machine (38) and the sixth finish painting machine (40) are all single-roller roll painting machines; the fourth drying device (35) and the fifth drying device (41) are both hot air drying tunnels.

3. A roller coating production line for fluorocarbon heat-insulating decorative boards as claimed in claim 1, wherein the first roller coating machine (4) is a putty two-roller coating machine, and the second roller coating machine (10) is a UV primer two-roller coating machine.

4. A roller coating production line for fluorocarbon heat-insulating decorative boards as claimed in claim 1, wherein the first drying device (5) and the second drying device (11) are both three-lamp UV curing machines, and the third drying device (20) is a folding drying tunnel.

5. A roller coating production line for fluorocarbon heat-insulating decorative boards as claimed in claim 1, wherein the first sander (7) and the second sander (13) are both double-primer sanders.

6. A roller coating production line for fluorocarbon heat-insulating decorative plates as claimed in claim 1, wherein the first steering machine (17) and the second steering machine (23) are both 90-degree steering machines; the seventh conveyor (18) and the eighth conveyor (22) are both multi-row buffer conveyors; the feeder (19) is a multi-row feeder, and the discharge machine (21) is a multi-row turnover leveler.

7. A roller coating production line for fluorocarbon heat-insulating decorative boards as claimed in claim 1, wherein the cooling device (24) is a cooling tunnel, and the film laminating machine (26) is a film laminating and film cutting integrated machine.

8. A roller coating production line for fluorocarbon heat-insulating decorative boards as claimed in claim 1, wherein the feeder (1) is a gantry suction cup type automatic feeder, and the blanking machine (28) is a gantry suction cup type automatic blanking machine.

9. A roller coating production line for fluorocarbon heat-insulating decorative boards as claimed in claim 2, wherein the first conveyor (2), the seventh conveyor (18), the ninth conveyor (25), the tenth conveyor (27) and the sixteenth conveyor (42) are all centering conveyors.