EP0186020A1 - Method for producing handles - Google Patents

Abstract

The process for producing carrying handles from carrier materials, which are provided with an adhesive mass and the width of which is greater than the width of the carrying handle, by trimming so as to form the side edges of the desired carrying handle is characterised by the use of a carrier-material web which is stretched predominantly perpendicularly relative to the web direction and which possesses perpendicularly to the web direction a tension value for a 5% elongation of at least 20 N/25 mm width.

Description

a method for producing handles from adhesive material-provided webs of material, the width of which is greater than the width of the handle, by cutting off by forming the side edges of the desired handle.

A manufacturing method is already known with which narrow adhesive handles can be obtained from wide webs by forming the side edges of the desired handle by cutting in the transverse direction of the web (WC patent application 84/04085). It has been found that the handles obtained in this way do not always have satisfactory properties in practice because the strength of the handle is insufficient when loaded in the longitudinal direction.

The object of the invention is to provide a method with which the disadvantages described are avoided.

This object is achieved by a method for producing handles from adhesive material webs, the width of which is greater than the handle width, by cutting off by forming the side edges of the desired handle, which is characterized in that a Weighing substrate web stretched perpendicular to the web direction is used, which has a tension value perpendicular to the web direction at 5% elongation of at least 20 N / 25 mm width. This value is preferably at least 50N / 25 mm width.

The web of carrier material preferably has a tensile strength of at least 100 N / 25 mm width perpendicular to the web direction and furthermore preferably a tensile strength of at least 500 m J / 25 mm width perpendicular to the web direction.

Backing material webs which have two or three of these properties mentioned together are particularly preferred.

Backing material webs that have one or more of the specified properties such as the tension value, the tensile strength and the impact traction work with the specified values at a thickness of 20 μm and 25 mm width are preferred; backing material webs which have these properties at a thickness of 40 μm are particularly preferred.

The tension value at 5% elongation is a measure of the maximum quasi-static load capacity of a 25 mm wide handle, provided that the handle does not stretch by more than 5%. This size is determined in accordance with DIN 53455.

The tensile strength value (determined according to DIN 53455) indicates the quasi-static load at which a 25 mm wide handle tears.

The impact work indicates the work capacity of a 3 cm long sample of a 25 mm wide handle with a deformation that is 2.9 m / sec deformation rate is initiated. The test is carried out in accordance with DIN 53488.

Suitable carrier material webs are stretched or oriented plastic films. Polyolefin films, polyester films and polyvinyl chloride films are preferred.

Particularly suitable polyolefin films are polyethylene and polypropylene films. Polypropylene films are preferred, namely those made of polypropylene homopolymer or a copolymer of polypropylene, in particular with ethylene. The polypropylene copolymers preferably contain polypropylene as the main component.

Preferred polyester films are polyethylene terephthalate films.

Laminates which have the strengths according to the invention perpendicular to the web direction are also suitable as backing material webs. Further layers can also be oriented or stretched in a direction other than perpendicular to the web direction.

The carrier material web according to the invention is predominantly stretched perpendicular to the web direction. In particular, it is stretched more perpendicular to the web direction than in the web direction, so that the draw ratio perpendicular to the web direction is greater than the draw ratio in the web direction.

The stretching ratio indicates the number of times the original length or width of the carrier is extended or widened by the stretching process. Other terms are used for the expression "web direction" known, for example: longitudinal direction, machine direction. The term "perpendicular to the web direction", also called the transverse direction, means the vertical that lies in the web plane.

The stretch ratio perpendicular to the web direction is preferably at least 1: 4, preferably at least 1: 5, in particular 1: 7 to 1:10, for polyolefin films and for polyester films. In the web direction, the draw ratio is preferably at least 1: 1.1, in particular 1: 3 to 1: 8, preferably 1: 4 to 1: 6. These stretching ratios are preferred for polypropylene films, and preferably for polypropylene homopolymers.

Polyvinyl chloride films preferably have a stretch ratio of 1: 2 to 1: 4, in particular of about 1: 3, perpendicular to the web direction. In the web direction, stretching ratios of 1: 1.2 to 1: 1.9 are preferred.

Low stretching ratios in the web direction are preferred in order to ensure the good ability to cut the webs of carrier material. The web is therefore only stretched in this direction to such an extent that it can be processed well.

The carrier material webs according to the invention can be obtained using conventional stretching processes from plastics known per se. According to WO patent application 84/04085, they can easily be further processed into handles.

The thickness of the carrier material web is preferably 25 to 500 wm. Unfoamed foils have a thickness of 30 to 80 µm and foamed foils have a thickness of 60 to 260 µm.

Foam substrates are used as carrier materials before stretching Foils particularly suitable. Also suitable are such backing material webs which are foamed only in the central region of the web which forms the central handle part of the cut handle, thereby avoiding constrictions in the handle when in use, since they have good rigidity without reinforcement or paper supports.

A blowing agent (blowing agent) is added to the polymers used for the production of the (foamed) carrier according to the invention, preferably polyolefins, in particular polypropylene and copolymers containing polypropylene as the main component, which releases gases when heated by decomposition. Solid connections or systems are particularly suitable under normal conditions. Propellants based on citric acid / sodium bicarbonate, e.g. are commercially available under the name Hydrocerol, and azodicarbonamide. Further suitable blowing agents are: β-naphthalenesulfonic acid hydrazide, diphenylsulfone-3,? '- disulfonylhydrazide, berzol-1,3-disulfonic acid hydrazide, benzenesulfonic acid-N-phenylhydrazide, sodium bicarbonate / melamine, p, p'-oxy-bis-benzenesulfonyl - hydrazide, sodium carbonate / citric acid, urea / biuret, 1,6-di-n-decyl-azobisformamide and diphenyl-4,4'-di- (sulfonyl azide).

The blowing agent is preferably present in the mixture in a weight fraction of 0.5 to 4%, in particular 1 to 3%.

The density of the foamed carrier is in particular 0.4 to 0.75 g / cm ³ , preferably 0.45 to 0.65 g / cm.

The thickness of the foamed, unstretched carrier can amount to about 0.075 to 10 mm, in particular 0.25 to 2.5 mm and must be coordinated with regard to the selected stretching ratios. Depending on the intended use, the foamed and stretched supports can have a thickness of in particular 25 to 500 μm and particularly preferably 40 to 160 μm.

The carrier material web according to the invention can be provided on one side with an adhesive over the entire surface or also partially, for example in the form of a strip, in particular on the sides, so that the handles can be glued to both end regions.

Preferred adhesives are pressure-sensitive adhesives or self-adhesives and hot-melt adhesives.

Self-adhesive compositions can also be applied in combination with a heat-activatable or in another way activatable adhesive. The application can be done in full line as well as in stripe line, so that both properties are fulfilled.

By covering the entire surface of the web provided with adhesive in its central region with suitable non-adhesive materials such as plastic films or paper webs and powdery or liquid materials, the adhesive can be inactivated, as a result of which the non-tacky grip part of the handle is obtained.

The carrier material webs can preferably be provided in the central area with an auxiliary carrier or a reinforcement, e.g. consists of plastic films, foamed plastic films or paper. This increases the resilience of the handle and avoids constriction of the handle during use.

Web-shaped auxiliary carriers and reinforcing materials are preferably unrolled from separate supply rolls, placed on the carrier material web in the running direction, connected to it and fed to the cutting machine.

Carrier material webs coated with self-adhesive are preferably provided on the back with an adhesive-repellent coating, the strip-shaped course of which is expediently coordinated with the application of adhesive on the opposite side.

The carrier material webs according to the invention can, however, also be printed continuously in the web direction perpendicular to the web direction, for example with lettering or patterns, the position of which is coordinated with the handles which are later divided off.

With the production method according to the invention, at least 50 handles per minute, preferably over 100 handles per minute and in particular 150-200 handles per minute, can be cut off perpendicularly to the web direction from the web of web material according to the invention. These high cutting speeds can be achieved with these carrier material webs, since they are characterized by excellent cutability perpendicular to the web direction and good rigidity in the web direction, so that a trouble-free feed in the cutting device is ensured.

It is particularly advantageous that the handles obtained by the method according to the invention can withstand shock-like loads and only expand slightly.

• In den Beispielen wurden Trennmittel, Kleber und Primer folgender Zusammensetzung verwendet:

The following examples serve to illustrate the invention:

• Release agents, adhesives and primers of the following composition were used in the examples:

A commercially available silicone release agent from the class of condensation-crosslinking two-component systems was used as the release agent. The crosslinking was catalyzed with dibutyltin maleate. The separating substance was applied as a 5% solution in toluene using a doctor knife. The coating thickness (dry) was 0.2 g / m.

• 42 Gew.-Tln. Styrol-Isopren-Blockcopolymerisat (SIS) 20 Gew.-Tln. Pentaerythritester des hydrierten Kolophoniums
• 37 Gew.-Tln. aliphatischem Kohlenwasserstoffharz, Erweichungspunkt 85°C,
• 1 Gew.-Tl. Zinkdibutyldithiocarbamat.

The adhesive consisted of

• 42 parts by weight Styrene-isoprene block copolymer (SIS) 20 parts by weight Pentaerythritol ester of hydrogenated rosin
• 37 parts by weight aliphatic hydrocarbon resin, softening point 85 ° C,
• 1 part by weight Zinc dibutyl dithiocarbamate.

The adhesive was applied as a 40% solution in toluene with subsequent drying. The adhesive application was 30-35 g / m ² . Application from the melt is also possible.

There was no need to use a special anchoring layer between the carrier and the adhesive. The primers corresponding to the prior art can of course be used.

example 1

A polypropylene-polyethylene copolymer with a 3% polyethylene content is extruded from a conventional extruder onto a chill roll and then stretched in the web direction at temperatures between 125 ° C. and 130 ° C. in a ratio of 1: 3. The web is then fed to a spreader frame and stretched at temperatures between 145 ° C and 150 ° C in a ratio of 1: 9. The carrier material web has a thickness of 50 µm.

To produce adhesive webs, the carrier is trimmed to a wetting tension of 40 mN / m on both sides by corona pretreatment. The carrier is then coated on one side with the above-mentioned adhesive and provided on the back with the release agent.

A narrower paper web is then placed continuously on the central area of the adhesive web side in the machine direction. The composite web thus formed is then fed to a conventional cross-cutting device, in particular one of the type described in WO patent application 84/04085, and cut into carrying handles. 170 handles per minute are obtained.

According to Example 1, the following films can be used: Bicor 30 (Mobil), Trespaph. NND-40 (Kalle), Torayfan 60 (Mitsui), Mylar 23 (DuPont), Hostaphan V67 / RS (Kalle), Genotherm GZ44 (Kalle).

Example 2

75 parts by weight of granulated PP / PE block copolymer (melt index 230 / 2.16: 5 g / 10 min), 5 parts by weight parts of low density polyethylene with a melt index 190/5 of 2 - 5 g / 10 min, 5 parts by weight of ethylene-vinyl acetate copolymer (EVA as defined below) and 15 parts by weight of styrene-butadiene block copolymer (SBR as defined below) are mixed well. For this purpose, the three last-mentioned components are expediently premixed with a small amount of the first component in the mixing extruder and then granulated. The granules obtained are mixed with the remaining PP / PE granules and 1.5 parts by weight of the blowing agent based on citric acid / sodium hydrogen carbonate (hydrocerol). This mixture is extruded from a conventional extruder onto a chill roll as a foamed sheet about 1000 microns thick.

This foam web is stretched on a roll stretching machine in the web direction at temperatures between 125 ° and 130 ° C. in a stretching ratio of 1: 3. The thickness of the foamed, stretched web is approximately 550 µm.

• PP/PE: PP/PE-Copolymerisat (statistisches oder Block-Copolymerisat) mit einem Schmelzindex 230/2.16 von etwa 5 g/10 min. und einem Äthylengehalt von etwa 4 %.
• EVA : Äthylen-Vinylacetat-Copolymerisat mit einem Vinylacetatgehalt von 45 %.
• SBR: Styrol-Butadien-Blockcopolymerisat mit einem Styrolgehalt von 50 % mit einem Schmelzindex 230/2.16 von etwa 5 - 10 g/10 min.

The material web is then fed to a spreader frame and stretched perpendicular to the web direction at temperatures of 145 ° C - 150 ° C in a ratio of 1: 6. The thickness of the foamed sheet is approximately 100 µm. It has a density of approximately 0.5 g / cm ³ .

• PP / PE: PP / PE copolymer (random or block copolymer) with a melt index 230 / 2.16 of about 5 g / 10 min. and an ethylene content of about 4%.
• EVA: ethylene-vinyl acetate copolymer with a vinyl acetate content of 45%.
• SBR: styrene-butadiene block copolymer with a styrene content of 50% and a melt index 230 / 2.16 of about 5 - 10 g / 10 min.

To produce adhesive webs, the carrier is trimmed on both sides by corona pretreatment to a wetting tension of 40 m N / m. The backing is then coated in strips on the one side in the area of the two edges with the above-mentioned adhesive and provided on the back with the release agent in the same manner and in a corresponding width. The web thus formed is then fed to a conventional cross cutting device, in particular of the type described in WO patent application 84/04085, and cut into carrying handles. 170 handles per minute are obtained.

Claims (13)

1. A method for producing handles from adhesive backing webs, the width of which is greater than the handle width, by cutting off by forming the side edges of the desired handle, characterized in that a predominantly stretched perpendicular to the web direction is used that perpendicular to the web Web direction has a tension value at 5% elongation of at least 20 N / 25 mm width. 2. The method according to claim 1, characterized in that the tension value at 5% elongation is at least 50 N / 25 mm width. 3. The method according to claim 1 or 2, characterized in that a carrier material web is used which additionally has a tensile strength perpendicular to the web direction of at least 100 N / 25 mm width and / or impact work of at least 500 m J / 25 mm width. 4. The method according to claim 1 to 3, characterized in that the values given relate to a web of at least 20 µm or at least 40 µm in thickness. 5. The method according to claim 1, characterized in that polyolefin films, polyester films, polyvinyl chloride films, laminates or foamed films are used as carrier material webs, in particular foamed films only in the central region. 6. The method according to claim 1, characterized in that for polyolefin and polyester films the horizontal bar ratio perpendicular to the web direction is at least 1: 4 and for polyvinyl chloride films 1: 2 to 1: 4. 7. The method according to claim 1, characterized in that the carrier material web is 25 -500 microns thick. 8. The method according to claim 1, characterized in that the carrier material web is provided over its entire surface or in strips with self-adhesive and / or hot-melt adhesive. 9. The method according to claim 1, characterized in that the central region of the carrier material web is provided with non-adhesive materials or an auxiliary carrier or a reinforcement. 10. The method according to claim 1, characterized in that the carrier material web is foamed only in the central region. 11. The method according to claim 1, characterized in that the non-adhesive back of the carrier material web is provided with an adhesive-repellent coating. 12. The method according to claim 1, characterized in that the carrier material web is continuously printed in or perpendicular to the web direction. 13. The method according to claim 1, characterized in that at least 50 handles per minute are cut.