CN210733444U - Processing line for water-based pressure-sensitive adhesive composite non-setting adhesive material - Google Patents

Abstract

The utility model discloses a processing line for water-based pressure-sensitive adhesive composite non-setting adhesive materials, which comprises a first unreeling device, a water-based pressure-sensitive adhesive coating device, a hot air drying device, a second unreeling device, a compounding device and a reeling device; the water-based pressure-sensitive adhesive coating device is arranged at the next process position of the first unreeling device, the hot air drying device is arranged at the next process position of the water-based pressure-sensitive adhesive coating device, the hot air drying device and the next process position of the second unreeling device are both composite devices, and the reeling device is arranged at the next process position of the composite devices; the compounding device compounds the water-based pressure-sensitive adhesive layer of the base paper and the panel. The processing line for the water-based pressure-sensitive adhesive composite non-setting adhesive material can complete the whole process for compounding the non-setting adhesive material by using the water-based pressure-sensitive adhesive, and can improve the production efficiency of the non-setting adhesive material, thereby reducing the production cost and improving the economic benefit.

Description

Processing line for water-based pressure-sensitive adhesive composite non-setting adhesive material

Technical Field

The utility model relates to a non-setting adhesive material production field mainly involves a compound non-setting adhesive material flow direction of packaging line of waterborne pressure sensitive adhesive.

Background

The demand of the society on paper is increasing day by day, and for the paper manufacturing industry, need utilize waterborne pressure sensitive adhesive to carry out compound non-setting adhesive material, current production line can not satisfy the demand of productivity, consequently needs a waterborne pressure sensitive adhesive compound non-setting adhesive material flow direction of packaging line.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the shortcoming and not enough among the prior art, provide a compound non-setting adhesive material flow direction of packaging line of waterborne pressure sensitive adhesive for solve above-mentioned technical problem.

The utility model discloses a realize through following technical scheme: the processing line for the water-based pressure-sensitive adhesive composite non-setting adhesive material comprises a first unreeling device, a water-based pressure-sensitive adhesive coating device, a hot air drying device, a second unreeling device, a compounding device and a reeling device; a driving roller is arranged at an outlet of the first unreeling device; the next working position of the first unwinding device is provided with a water-based pressure-sensitive adhesive coating device, the water-based pressure-sensitive adhesive coating device is arranged on the left side of the first unwinding device, a driving roller is arranged at an inlet of the water-based pressure-sensitive adhesive coating device, and the inlet of the water-based pressure-sensitive adhesive coating device is connected with an outlet of the first unwinding device through the driving roller; the next working position of the water-based pressure-sensitive adhesive coating device is provided with a hot air drying device, the hot air drying device is arranged above the water-based pressure-sensitive adhesive coating device, the outlet of the water-based pressure-sensitive adhesive coating device is positioned at the inlet of the hot air drying device and is provided with a driving roller, and the outlet of the water-based pressure-sensitive adhesive coating device is connected with the inlet of the hot air drying device through the driving roller; the composite device is arranged on the left side of the second unwinding device and the right side of the winding device and comprises a first inlet and a second inlet, driving rollers are arranged at the first inlet and the second inlet of the composite device, the first inlet of the composite device is connected with an outlet of the hot air drying device through the driving rollers, the second inlet of the composite device is connected with an outlet of the second unwinding device through the driving rollers, and the composite device composites base paper with a water-based pressure-sensitive adhesive layer from the first inlet and a panel from the second inlet; the next process position of the compounding device is provided with a rolling device, the inlet of the rolling device and the outlet of the compounding device are both provided with driving rollers, and the outlet of the compounding device is connected with the inlet of the rolling device through the driving rollers.

The working principle is as follows: the automatic base stock that unreels of first unwinding device, the base stock is transmitted to waterborne pressure sensitive adhesive coating unit department, waterborne pressure sensitive adhesive coating unit carries out waterborne pressure sensitive adhesive coating to the base stock, make the base stock on coat the waterborne pressure sensitive adhesive layer of one deck emulsion form, then through hot air drying device, hot air drying device carries out hot air drying to waterborne pressure sensitive adhesive layer and makes the degree of solidification of waterborne pressure sensitive adhesive layer uprise, then the base stock that contains waterborne pressure sensitive adhesive layer transmits to set composite, meanwhile, the plane materiel that the automatic plane materiel that unreels of second unwinding device is also transmitted to set composite department, set composite carries out the compounding with the waterborne pressure sensitive adhesive layer of base stock that contains waterborne pressure sensitive adhesive layer with the plane materiel and forms the non-setting adhesive material, then the non-setting adhesive material is transmitted to coiling mechanism, the coiling mechanism.

The processing line for the water-based pressure-sensitive adhesive composite non-setting adhesive material can complete the whole process for compounding the non-setting adhesive material by using the water-based pressure-sensitive adhesive, and can improve the production efficiency of the non-setting adhesive material, thereby reducing the production cost and improving the economic benefit.

Furthermore, the temperature of the hot air drying device is not less than 100 ℃, the drying process of the water-based pressure-sensitive adhesive layer can be completed quickly, the time required by drying is reduced, and the production efficiency of a production line is improved.

Furthermore, the first unwinding device unwinds base paper containing a silicone oil layer, and the second unwinding device unwinds surface materials.

Further, transmission path between different devices is provided with a plurality of driving rollers, and the driving roller makes paper transmit between different devices and can have a bearing and driven mechanism, can guarantee like this that paper material also can not appear collapsing when long distance transports, becomes more nimble in the transmission path design of assembly line.

Drawings

FIG. 1 is a schematic flow chart of a processing line of the water-based pressure-sensitive adhesive composite non-setting adhesive material of the present invention;

FIG. 2 is a schematic view of the processing line of the water-based pressure-sensitive adhesive composite non-setting adhesive material of the present invention;

FIG. 3 is a partial enlarged structure diagram of a first unwinding device of the processing line of the water-based pressure-sensitive adhesive composite non-setting adhesive material of the utility model;

FIG. 4 is a partial enlarged structure view of the water-based pressure-sensitive adhesive coating apparatus of the water-based pressure-sensitive adhesive composite non-setting adhesive material processing line of the present invention;

FIG. 5 is a partial enlarged structure view of a hot air drying device of the processing line of the water-based pressure-sensitive adhesive composite non-setting adhesive material of the utility model;

FIG. 6 is a partial enlarged structure view of a second unwinding device of the processing line of the water-based pressure-sensitive adhesive composite non-setting adhesive material of the utility model;

FIG. 7 is a partially enlarged structure view of a compounding device of the processing line of the water-based pressure-sensitive adhesive composite non-setting adhesive material of the present invention;

FIG. 8 is a partial enlarged structure diagram of a winding device of the processing line of the water-based pressure-sensitive adhesive composite non-setting adhesive material of the utility model.

The drawings illustrate schematically: 1-a first unwinding device; 2-aqueous pressure-sensitive adhesive coating device; 3-a hot air drying device; 31-hot air outlet; 4, a second unwinding device; 5-a compounding device; 51-a chill roll; 52-silica gel roller; 6, a winding device; 7-driving rollers.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following describes in detail specific embodiments of the present invention with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention.

With reference to fig. 1-8, the processing line for the water-based pressure-sensitive adhesive composite non-setting adhesive material comprises a first unwinding device 1, a water-based pressure-sensitive adhesive coating device 2, a hot air drying device 3, a second unwinding device 4, a compounding device 5 and a winding device 6; a driving roller 7 is arranged at an outlet of the first unreeling device 1; the next process position of the first unwinding device 1 is provided with a water-based pressure-sensitive adhesive coating device 2, the water-based pressure-sensitive adhesive coating device 2 is arranged on the left side of the first unwinding device 1, a driving roller 7 is arranged at an inlet of the water-based pressure-sensitive adhesive coating device 2, the inlet of the water-based pressure-sensitive adhesive coating device 2 is connected with an outlet of the first unwinding device 1 through the driving roller 7, the connecting finger between the inlet of the water-based pressure-sensitive adhesive coating device 2 and the outlet of the first unwinding device 1 through the driving roller 7 is that the bottom material can come out from the outlet of the first unwinding device 1 through the inlet of the water-based pressure-sensitive adhesive coating device 2 and then enters the water-based pressure-sensitive adhesive coating device 2 through the inlet of the water-based pressure-sensitive adhesive coating device 2 through the driving roller 7; in practical use, a plurality of driving rollers 7 can be arranged between the driving roller 7 at the inlet of the aqueous pressure-sensitive adhesive coating device 2 and the driving roller 7 at the outlet of the first unwinding device 1 according to the practical transmission distance between the aqueous pressure-sensitive adhesive coating device 2 and the first unwinding device 1 by a person skilled in the art, so that the backing material in the transmission process can be supported, and the problem of collapse and sagging of the backing material under long-distance transmission can be avoided; a hot air drying device 3 is arranged at the next process position of the water-based pressure-sensitive adhesive coating device 2, the hot air drying device 3 is provided with a plurality of hot air outlets 3131, the hot air outlets 3131 are opposite to a water-based pressure-sensitive adhesive layer on a base paper on a driving roller 78 in the hot air device for hot air drying, the hot air drying device 3 is arranged above the water-based pressure-sensitive adhesive coating device 2, driving rollers 7 are arranged at the positions, at the inlet of the hot air drying device 3, of the outlet of the water-based pressure-sensitive adhesive coating device 2, the outlet of the water-based pressure-sensitive adhesive coating device 2 is connected with the inlet of the hot air drying device 3 through the driving rollers 7, the inlet of the hot air drying device 3, which is connected with the outlet of the first unreeling device 1 through the driving rollers 7, and the driving rollers 7 at the outlet of the first unreeling device 1 enable the base material to come out of the outlet of the first unreeling device 1, and; in practical use, a plurality of driving rollers 7 can be arranged between the driving roller 7 at the inlet of the hot air drying device 3 and the driving roller 7 at the outlet of the first unreeling device 1 according to the practical transmission distance between the hot air drying device 3 and the first unreeling device 1 by a person skilled in the art, so that the backing material in the transmission process can be supported, and the backing material cannot collapse or sag under long-distance transportation; the compounding device 5 is arranged on the left side of the second unreeling device 4 and the right side of the reeling device 6, the compounding device 5 comprises a first inlet and a second inlet, driving rollers 7 are arranged at the first inlet and the second inlet of the compounding device 5, the first inlet of the compounding device 5 is connected with an outlet of the hot air drying device 3 through the driving rollers 7, the second inlet of the compounding device 5 is connected with an outlet of the second unreeling device 4 through the driving rollers 7, at least a silica gel roller 52 and a cooling roller 51 which interact with each other are arranged in the compounding device 5, and under the action of the silica gel roller 52 and the cooling roller 51 of the compounding device 5, the compounding device 5 compounds the base paper with the water-based pressure-sensitive adhesive layer from the first inlet and the panel from the second inlet; the next working position of the compounding device 5 is provided with a rolling device 6, the inlet of the rolling device 6 and the outlet of the compounding device 5 are both provided with a driving roller 7, the outlet of the compounding device 5 is connected with the inlet of the rolling device 6 through the driving roller 7, the connection of the inlet of the rolling device 6 and the outlet of the compounding device 5 through the driving roller 7 means that the backing material can come out of the outlet of the compounding device 5 from the inlet of the compounding device 5 and then enter the rolling device 6 through the inlet of the rolling device 6 through the driving roller 7; in practical use, a plurality of driving rollers 7 can be arranged between the driving roller 7 at the inlet of the rolling device 6 and the driving roller 7 at the outlet of the compounding device 5 according to the actual transmission distance between the rolling device 6 and the compounding device 5 by a person skilled in the art, so as to play a role in supporting the backing material in the process of transmission, and the backing material cannot collapse or sag in long-distance transportation.

The working principle is as follows: the first unwinding device 1 automatically unwinds the base paper, the base paper is transmitted to the water-based pressure-sensitive adhesive coating device 2, the water-based pressure-sensitive adhesive coating device 2 performs water-based pressure-sensitive adhesive coating on the base paper, so that a layer of emulsion-shaped water-based pressure-sensitive adhesive layer is coated on the base paper, then the base paper passes through the hot air drying device 3, the hot air drying device 3 performs hot air drying on the water-based pressure-sensitive adhesive layer, so that the degree of solidification of the water-based pressure-sensitive adhesive layer is increased, then the base paper containing the water-based pressure-sensitive adhesive layer is transmitted to the compounding device 5, meanwhile, the surface material automatically unwound by the second unwinding device 4 is also transmitted to the compounding device 5, the compounding device 5 compounds the water-based pressure-sensitive adhesive layer containing the water-based pressure-sensitive adhesive layer and the surface material to form.

The processing line for the water-based pressure-sensitive adhesive composite non-setting adhesive material can complete the whole process for compounding the non-setting adhesive material by using the water-based pressure-sensitive adhesive, and can improve the production efficiency of the non-setting adhesive material, thereby reducing the production cost and improving the economic benefit.

Further, the temperature of the hot air drying device 3 is not less than 100 ℃, so that the drying process of the water-based pressure-sensitive adhesive layer can be completed quickly, the time required by drying is reduced, and the production efficiency of a production line is improved.

Further, the first unwinding device 1 unwinds base paper containing a silicone oil layer, and the second unwinding device 4 unwinds a surface material.

The present invention is not limited to the above-described embodiment, and various modifications and variations of the present invention are also intended to be included within the scope of the claims and the equivalent technology if they do not depart from the spirit and scope of the present invention.

Claims (4)

1. The processing line of the water-based pressure-sensitive adhesive composite non-setting adhesive material is characterized in that: the device comprises a first unwinding device, a water-based pressure-sensitive adhesive coating device, a hot air drying device, a second unwinding device, a compounding device and a winding device; a driving roller is arranged at an outlet of the first unreeling device; the next working position of the first unwinding device is provided with a water-based pressure-sensitive adhesive coating device, the water-based pressure-sensitive adhesive coating device is arranged on the left side of the first unwinding device, a driving roller is arranged at an inlet of the water-based pressure-sensitive adhesive coating device, and the inlet of the water-based pressure-sensitive adhesive coating device is connected with an outlet of the first unwinding device through the driving roller; the next working position of the water-based pressure-sensitive adhesive coating device is provided with a hot air drying device, the hot air drying device is arranged above the water-based pressure-sensitive adhesive coating device, the outlet of the water-based pressure-sensitive adhesive coating device and the inlet of the hot air drying device are both provided with a driving roller, and the outlet of the water-based pressure-sensitive adhesive coating device is connected with the inlet of the hot air drying device through the driving roller; the composite device is arranged on the left side of the second unwinding device and the right side of the winding device and comprises a first inlet and a second inlet, driving rollers are arranged at the first inlet and the second inlet of the composite device, the first inlet of the composite device is connected with an outlet of the hot air drying device through the driving rollers, the second inlet of the composite device is connected with an outlet of the second unwinding device through the driving rollers, and the composite device composites base paper with a water-based pressure-sensitive adhesive layer from the first inlet and a panel from the second inlet; the next process position of the compounding device is provided with a rolling device, the inlet of the rolling device and the outlet of the compounding device are both provided with driving rollers, and the outlet of the compounding device is connected with the inlet of the rolling device through the driving rollers.

2. The processing line of the water-based pressure-sensitive adhesive composite pressure-sensitive adhesive material as claimed in claim 1, is characterized in that: the temperature of the hot air drying device is not less than 100 ℃.

3. The processing line of the water-based pressure-sensitive adhesive composite pressure-sensitive adhesive material as claimed in claim 1, is characterized in that: the first unwinding device unwinds base paper containing a silicon oil layer, and the second unwinding device turns over a surface material.

4. The processing line of the water-based pressure-sensitive adhesive composite pressure-sensitive adhesive material as claimed in claim 1, is characterized in that: the transport path between the different devices is provided with several driving rollers.

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