JPH0143585B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a two-component adhesive coating device for a solvent-free laminator.

The object of the present invention is to provide a solvent-free laminator that uses a two-component solvent-free adhesive to produce laminate webs made of plastic film, paper, aluminum foil, etc. To enable good coating over a long period of time.

2. When continuously coating a two-component adhesive with a short pot life for a long time, it prevents gelation and thickening of the adhesive on the coater roll, and improves the coating amount, web tension, web appearance, etc., and lamination. To maintain uniformity of various elements.

3. To maintain uniform viscosity in the width direction of the roll by preventing partial accumulation of the adhesive on the coater roll, especially between the No. 1 and No. 2 rolls.

4. By coating and laminating a two-component adhesive with a short pot life with a uniform coating amount, web tension, and web appearance, a laminated web with adhesive strength, sealing strength, etc. superior to that of a one-component adhesive can be manufactured. …It is in.

FIG. 1 shows an adhesive supply section, a coating section, and a laminating section of a known two-component adhesive. The coating section 8 consists of four coating rolls: No. 1 roll 1, No. 2 roll 2, No. 3 roll 3, and No. 4 roll 4, and uses the principle of film splitting to form adhesive into a thin film of 0.5 to 3 g/m ² . Then, the image is transferred to the first web 5. Tank 1 is supplied from adhesive supply section 16.
4. The two liquid components are pumped through the tank 14', the pump 13, the pump 13', the hose 12, and the hose 12', and the mixer 11 mixes the two liquid components. 2
During this period, feed the roll evenly in the width direction. The side dams 15 prevent adhesive from leaking from both ends of the roll. The laminate part 9 is the first layer to which the adhesive has been transferred.
The web 5 and the second web 6 are pressed together to form a laminate web 7.

FIG. 2 illustrates the state of the coating portion 8 in the roll width direction. The two-component adhesive mixed by the mixer 11 is evenly supplied from the nozzle 10 between the first roll 1 and the second roll 2 over the entire width in the roll width direction. No. 3 roll 3 is a rubber roll whose shoulder is dropped to match the coating width. The adhesive inside the coating width 18 of the first roll 1 and the second roll 2 is sequentially transferred to the third roll 3, and then the first
The image is transferred to the web 5 and consumed.

However, the adhesive on the outside of the coating width 17 has a high viscosity of 1000 to 100000 CPS;
Also, the peripheral speed of No. 2 roll 2 is approximately 1/10 of the web speed.
Since the circumferential speed of the No. 1 roll 1 is very low, about 1/100, there is almost no lateral flow of the adhesive between the inside 18 of the coating width and the outside 17 of the coating width, so it is difficult to replace the adhesive.

According to the inventor's experience, adhesives that can be used in this known coating method cannot be operated continuously for more than half a day unless their pot life (the time during which the viscosity hardly changes after mixing) is at least 2 hours. It was hot.

When an adhesive with a short pot life is applied using this known method, the adhesive thickens during operation, resulting in variations in the coating amount, increased web tension, and gelation, which causes spots on the coated surface and poor appearance. Problems such as Furthermore, if the adhesive is even partially cured, it will cause serious damage to the roll.

However, adhesives with a slow curing reaction and a pot life of 2 hours or more have no green tack at all.
Tunneling occurs when winding a laminate web. Furthermore, since the curing reaction is slow, heating and curing for 1 to 2 days is required, and the product must be stored until it is subjected to the next process such as a slitter, which reduces the loss rate and shortens the process. Unable to meet requests such as reduction in inventory. This is particularly disadvantageous when producing laminate waves for high performance applications with three or more layers.

The present invention is an improvement on this, as shown in Figures 3 and 4.
The configuration of the present invention will be explained with reference to the drawings. No. 1 roll 1
Width-determining dams 21 are arranged on both sides to determine the coating width in contact with the second roll 2, and a width plate 22 is arranged on the first roll 1 side, so that an adhesive bank 19 can be formed as shown in Fig. 3. Do it like this.

The adhesive whose two liquid components are mixed by the mixer 11 passes through the supply hose 23 and is supplied from the supply nozzle 20 to the adhesive bank 19 . The supply nozzle 20 is arranged such that its tip is immersed in the adhesive bank 19. The supply nozzle 20 is fixed to a nozzle support 24 having wheels 26, and can be driven together with the nozzle support 24 on a rail 25 in the roll width direction.

The nozzle drive unit 27 is a part that drives the supply nozzle 20 and the nozzle support 24 in the roll width direction, and uses a known wire type cylinder or road type cylinder operated by air pressure, or various motors operated by electricity or air. do. In any case, the supply nozzle 20 is reciprocated by a drive unit 27 between the width determining dams 21 on both sides by a known method.

The rail 25 and the nozzle drive unit 27 are fixed to a roll arm 28 that supports the first roll 1 and the second roll 2. Although not shown, the width determining dam 21 has a structure that allows it to slide in the width direction of the roll so that the coating width can be changed.

Next, the operation will be explained.

Supply nozzle 2 immersed in adhesive bank 19
0 is reciprocated by the nozzle drive unit 27 between the coating width interior 18 defined by the width-determining dam 21, so that the two-component adhesive with a short pot life, which is a mixture of two components by the mixer 11, is transferred to the coating width interior. 1
It is supplied sequentially over the entire width of 8. Further, the supply nozzle 20 reciprocates within the adhesive bank 19, thereby stirring the adhesive bank 19.

Due to the above action, the fresh two-component adhesive mixed by the mixer 11 is supplied to the entire width of the coating width 18 of the adhesive bank 19, and is stirred by the reciprocating supply nozzle 20, so that the adhesive bank 19 The viscosity of the two-component adhesive inside is always kept constant both in the width direction and over time. Therefore, the viscosity of the two-component adhesive transferred to the first web 5 via the second roll 2 and the third roll 3 is always constant in the width direction and over time.

According to the present invention, a two-component adhesive supply nozzle whose tip is immersed in the adhesive in the adhesive bank is arranged, and the adhesive supply nozzle is supported by a nozzle support that can reciprocate on a rail in the roll width direction. Therefore, the two-component adhesive is supplied to the entire coating width of the adhesive bank, and is stirred by the reciprocating supply nozzle during reciprocation, so that the two-component adhesive in the adhesive bank is The viscosity is always kept constant both in the width direction and over time, and the viscosity of the two-component adhesive transferred to the web from the second roll to the third roll can always be kept constant.

According to the present invention, a high viscosity two-component adhesive with a pot life of 2 to 3 minutes, a mixed viscosity of 10,000 CPS or more, and a very fast curing reaction is applied at a high speed of 150 m/min or more for 2 to 3 minutes.
Continuous coating of g/m ² is possible.

If it is possible to apply a two-component adhesive with a short pot life in this way, it will have a strong green tack and eliminate tunneling when winding up the laminate web, which will not only improve the product loss rate but also reduce the amount of two-layer laminate web. Since the three-layer laminate web can be manufactured within half a day after manufacturing the web, the process is greatly shortened. Therefore, the storage space required for heating and curing, which was conventionally required, can be reduced.

Furthermore, according to the present invention, it is possible to apply and laminate a two-component adhesive with a short pot life with uniform viscosity and uniform web tension, so that the adhesive strength and appearance of the laminated web are uniform across the width of the web and over time, compared to conventional webs. Better.

Therefore, the instability of the curing reaction, which has been a problem with conventional one-component adhesives or two-component adhesives with a long pot life, is eliminated, so that high-quality laminate webs can be stably produced.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram of a conventional two-component adhesive from an adhesive supply section to a laminating section, and FIG. 2 is a front view of the coating section in the roll width direction. Figure 3 shows the second aspect of the present invention.
FIG. 3 is a side view of the liquid supply section. Figure 4 is also a front view. In the figure, 1...1st roll, 2...2nd roll, 3...3rd roll, 4...4th roll, 5...1st roll
Web, 6... Second web, 7... Laminate web, 8... Coating section, 9... Laminating section, 10... Nozzle, 11... Mixer, 12, 1
2'...Hose, 13,13'...Pump, 14,1
4'...Tank, 15...Side dam, 16...Adhesive supply section, 17...Coating width outside, 18...Coating width inside,
19... Adhesive bank, 20... Supply nozzle, 21...
Width determining dam, 22...width plate, 23...supply hose, 2
4... Nozzle support body, 25... Rail, 26... Wheel,
27... Nozzle drive unit, 28... Roll arm.

Claims (1)

[Claims] 1 With the No. 1 roll and No. 2 roll, a width plate in contact with the No. 1 roll side, and a pair of left and right width determining dams that are in contact with the No. 1 roll and No. 2 roll and can slide on the width plates in the roll width direction. a nozzle support that constitutes an adhesive bank, in which a two-component adhesive supply nozzle whose tip is immersed in the adhesive is disposed, and the adhesive supply nozzle can reciprocate on a rail in the roll width direction; A two-component adhesive coating device for a solvent-free laminator, characterized in that the device is supported by a laminator.