DE202006004594U1 - Press pad, useful for employment in single-/multi- level high printing press, comprises layer consisting of fabric, layer from a fleece, first adhesive layer, protective surface layer and second adhesive layer that is connected with fabric - Google Patents

Abstract

Press pad, for employment in single-/multi- level high printing press, comprises at least one layer (1) consisting of a fabric that shows at least one heat steady synthetic threads and metal threads, at least one layer (3) from a fleece, at least one first adhesive layer (2), which is connected with the fabric by means of the fleece, at least one protective surface layer (5), and at least one second adhesive layer (4) that is connected with the fabric by means of the protective surface layer with the fleece. Press pad, for employment in single-/multi- level high printing press, comprises at least one layer (1) consisting of a fabric that shows at least one heat steady synthetic threads and metal threads, at least one layer (3) from a fleece, at least one first adhesive layer (2), which is connected with the fabric by means of the fleece, at least one protective surface layer (5), and at least one second adhesive layer (4) that is connected with the fabric by means of the protective surface layer with the fleece, where the protective surface layer comprises a polytetrafluoro compound, fluoro containing thermoplastic or a tetrafluoroethylene hexafluoro propylene, and the press pad is furnished with a fabric support.

Description

introduction

• – mindestens eine Schicht bestehend aus einem Gewebe, das mindestens hitzebeständige synthetische Fäden sowie Metallfäden aufweist,
• – mindestens eine Schicht aus einem Vlies,
• – mindestens eine erste Klebeschicht, mittels der das Vlies mit dem Gewebe verbunden ist,
• – mindestens eine Oberflächenschutzschicht, und
• – mindestens eine zweite Klebeschicht, mittels der die Oberflächenschutzschicht mit dem Vlies und/oder mit dem Gewebe verbunden ist.

The invention relates to a press pad for use in a one-day or multi-day high-pressure press, comprising:

• At least one layer consisting of a fabric which has at least heat-resistant synthetic threads and metal threads,
• At least one layer of a fleece,
• At least one first adhesive layer by means of which the fleece is connected to the fabric,
• At least one surface protective layer, and
• - At least a second adhesive layer, by means of which the surface protective layer is connected to the fleece and / or with the tissue.

such Press pads are typically used in the manufacture of high pressure laminate sheets used in hydraulic Mehretagenheiz- and cooling presses. The single ones High pressure laminate boards, both for decorative purposes as well for the serve technical use, are under pressure and temperature in manufactured these pressing plants. Laminate for decorative purposes usually consists of decorative printed melamine resin films as surface films and several layers of phenolic resin films as a core. To a later gluing on the wooden material carrier plates to enable the backside of the laminate subsequently ground.

In the preparation of laminates a plurality of laminated plates are made simultaneously per press days, the pressing temperatures, depending are of the laminate type produced between 140 to 180 ° C, and the pressing pressures between 500 to 1000 N / cm ^2. The pressing process at high pressing temperature is followed by a cooling phase, which also takes place under pressing pressure.

The initially described press pad are in the pressing process between a transport plate used to load the press and a steel pressed sheet having a desired surface texture has arranged.

As a result the heating and cooling processes occur during the pressing process high frictional forces due to the different Expansion and shrinkage behavior of the individual materials arise and the high stress on the surface protective layer of the press pad cause the surface protective layer the outermost layer, the surface of the press pad forms. The lifespan of using conventional Surface protective coatings equipped press pads is low. As damage to the Surface protection layer can lead to the development of dust particles during the pressing process, in this case, in particular in laminates used for the production of electronic Circuit boards are used, the risk of deterioration in the quality of the products lead to disqualification can.

task

task The present invention is a press pad of the above described type to provide, characterized by a long life and the prevention of the formation of abrasion is characterized. Farther the recovery properties / elasticity should be improved become.

solution

The Task is solved by that the surface protective layer from a polytetrafluoro compound or a fluorine-containing thermoplastic or a tetrafluoroethylene-hexafluoropropylene, and at each the aforementioned alternatives is equipped with a supporting fabric.

following is the term "fluorine-containing compounds" as a generic term for polytetrafluoro compounds and fluorine-containing thermoplastics and tetrafluoroethylene-hexafluoropropylene Understood.

The The above-mentioned fluorine-containing compounds are due to the high binding forces between carbon and fluorine good sliding properties over others Materials on, these properties even at temperatures up to 200 ° C remain.

The Arrangement of a support fabric in the surface protective layer is advantageous because it is the layer of fluorine-containing Stabilizes the compound and prevents it from being affected by high temperatures shrinks or quasi-plastic under the heat and pressure effect flows. In a changing stress by Temperature thus continues to crack in the surface protective layer prevented. After all has the protective layer according to the invention Advantages in terms of their manufacture, handling and in processing, as the risk of damage is reduced.

It is particularly advantageous if the surface protective layer consists of polytetrafluoroethylene (PTFE) and is equipped with a supporting fabric made of glass fiber. PTFE has a dynamic coefficient of friction against steel with a surface roughness of less than 2 μm and a pressure load of 50 N / mm ² of less than 0.01 and is therefore a material with extremely good sliding properties. Furthermore, the PTFE is characterized by its good thermal conductivity ability and good temperature resistance. Although polytetrafluoroethylene is a thermoplastic, even at a temperature stress of up to 200 ° C., no adhesion or substantial softening of the material is caused, which is important for the surface formation of press pads.

The supporting tissues Made of fiberglass is characterized by its high stability and load capacity and consequently by its extremely good Supporting force sufficiently large flexibility out. The comparatively easy weaving technique to be processed Glass fibers act as a reinforcement and take over the tensile forces in the Surface protective layer caused by the temperature-induced shrinkage of the PTFE and thereby minimizes cracking in the surface protective layer, which considerably extends the durability of the entire press pad.

Favorable Way is the supporting tissue inside the surface protection layer arranged and is complete covered by the fluorine-containing compound. That has the advantage the ease of handling in the production of the press pad, because it does not have to pay attention to which surface of the Surface protection layer the surface of the Press pad forms. Furthermore is a contact of the glass fibers with the press plate or the Heating plate and thus a risk of adhesion avoided.

at an embodiment of the press pad according to the invention has at least an adhesive layer has a greater layer thickness on, as for an adhesive function required. When using adhesives must first exceeded a threshold in terms of surface area be, so that a sufficient adhesive effect for the connection of Materials enters, that is, that the amount of the adhesive has a sufficiently large adhesive force for the Compound created by two materials. Becomes the surface order Increased continuously, a point is reached at which the adhesive force despite the increase in surface area not rising anymore. With regard to the adhesive effect is the adhesive layer saturated from this point and the crowd beyond that is applied, does not increase the adhesive force more. By the above mentioned greater layer thickness however, the adhesive layer advantageously becomes the cushioning property of the press pad further increased. The "oversized" adhesive layer points So combined upholstery and adhesive properties.

Especially It is advantageous if at least one adhesive layer is a double such a large layer thickness has, as for an adhesive function required.

With regard to the combined upholstery and adhesive properties, it has proved to be advantageous if at least one adhesive layer has a surface coverage of more than 50 g / m ² , preferably more than 100 g / m ² .

at An embodiment of the present invention is at least an adhesive layer of a high temperature resistant elastomer, as a result a particularly good cushioning property is achieved.

Farther it is advantageous if at least one adhesive layer of silicone elastomer, from a blend or copolymer made from fluorosilicone rubber and silicone rubber, of a fluorosilicone elastomer and / or a polyurethane elastomer or a combination of the aforementioned substances consists.

The Contains tissue of the press pad advantageously, threads made of aromatic polyamide and is therefore particularly heat resistant and resilient.

Further provides an embodiment of the press pad according to the invention that the fabric with metal threads wrapped synthetic threads contains whereby the press pad in addition to a good heat resistance has improved thermal conductivity properties.

Finally has to be particularly favorable proved when the press pad by a symmetrical arrangement of the layers, wherein the median plane of the layer a tissue forms the plane of symmetry of the press pad. Consequently is not the question when using the press pad the orientation of the pad in the press, which in terms of assembly leads the press to a significant simplification.

embodiment

The Invention will be described below with reference to an embodiment of a press pad, which is shown in the drawing, explained in more detail.

The figure shows a section through an inventive press pad 10 , For better illustration, the individual layers of the press pad 10 spaced apart from each other, which is a fully manufactured press pad 10 does not correspond, because there the individual layers are firmly joined together to form a single unit. The press pad 10 is symmetrical and has a middle layer 1 consisting of a fabric whose center plane is the plane of symmetry of the press pad 10 forms. The middle layer 1 is applied from both sides with a first adhesive layer 2 provided, whereupon each one layer 3 is arranged from a non-woven, so that the middle layer 1 sandwiched. On the two layers 3 in turn, a nonwoven material in each case becomes a second adhesive layer 4 applied and then each a surface protective layer 5 as the outermost layer of the press pad 10 arranged.

The middle layer forming layer 1 consists of a base fabric made of Kevlar yarn, the threads of which are wrapped with metal threads. The combination of heat-resistant synthetic threads of Kevlar and the metal threads results in a layer 1 , which is characterized by good cushioning properties and good thermal conductivity. The with the help of the first adhesive layer 2 applied layer 3 consists of a Kevlar fleece and serves to increase the cushioning properties of the press pad 10 , The first adhesive layer 2 is formed by a high-temperature-resistant permanently elastic silicone rubber, which is applied only with a surface application, which is required for the adhesive function. In contrast, the second adhesive layer becomes 4 , which also consists of a silicone rubber, applied with a surface application, which corresponds to twice the surface area that would be required for the sole adhesive function. Thus, the good adhesive properties can be combined with the excellent cushioning properties of the elastomeric adhesive and lead to a further increase in the cushioning properties of the press pad 10 ,

Finally, the press pad 10 with a surface protection layer 5 made of polytetrafluoroethylene (Teflon ^® ), which has a glass fiber supporting layer inside. Polytetrafluoroethylene has particularly good sliding properties compared with other materials and is therefore particularly suitable for use as a surface protection layer 5 a press pad 10 because the frictional forces arising during the pressing process do not cause abrasion of the thus smooth surface protection layer 5 cause. Furthermore, the PTFE is characterized by its good thermal conductivity and good temperature resistance, which are retained even at a temperature load of up to 200 ° C, which is important for the surface formation of press pads. Through the fiberglass backing fabric becomes the surface protective layer 5 stabilized and caused by an alternating temperature stress forces are absorbed by the glass fiber, so that cracking in the surface protective layer 5 counteracts and the durability of the press pad 10 is increased enormously. The total thickness of the press pad is typically about 2.5 mm to 8 mm.

1

layer

2

First adhesive layer

3

layer

4

Second adhesive layer

5

Surface protection layer

Claims (11)

Press pad ( 10 ) for use in a one-day or multi-day high-pressure press, comprising: - at least one layer ( 1 ) consisting of a fabric which has at least heat-resistant synthetic threads and metal threads, - at least one layer ( 3 ) of a nonwoven, - at least one first adhesive layer ( 2 ), by means of which the fleece is connected to the fabric, - at least one surface protective layer ( 5 ), and - at least one second adhesive layer ( 4 ), by means of which the surface protective layer ( 5 Is connected) with the nonwoven and / or with the fabric characterized in that the surface protective layer ( 5 ) consists of a polytetrafluoro compound or a fluorine-containing thermoplastic or a tetrafluoroethylene-hexafluoropropylene and in each of the aforementioned alternatives is equipped with a supporting fabric. Press pad ( 10 ) according to claim 1, characterized in that the surface protective layer ( 5 ) consists of polytetrafluoroethylene and is equipped with a supporting fiberglass fabric. Press pad ( 10 ) according to one of the preceding claims, characterized in that the supporting fabric in the interior of the surface protective layer ( 5 ) and completely covered by the polytetrafluoro compound. Press pad ( 10 ) according to one of the preceding claims, characterized in that at least one adhesive layer ( 2 . 4 ) has a greater layer thickness than required for an adhesive function. Press pad ( 10 ) according to one of the preceding claims, characterized in that at least one adhesive layer ( 2 . 4 ) has twice the layer thickness required for an adhesive function. Press pad ( 10 ) according to one of the preceding claims, characterized in that at least one adhesive layer ( 2 . 4 ) has a surface coverage of more than 50 g / m ² , preferably more than 100 g / m ² . Press pad ( 10 ) according to one of the preceding claims, characterized in that at least an adhesive layer ( 2 . 4 ) consists of a high temperature resistant elastomer. Press pad ( 10 ) according to one of the preceding claims, characterized in that at least one adhesive layer ( 2 . 4 ) consists of a silicone elastomer, a blend or copolymer made of fluorosilicone rubber and silicone rubber, a Fluorsilikonelastomer and / or a polyurethane elastomer or a combination of the aforementioned substances. Press pad ( 10 ) according to one of the preceding claims, characterized in that the fabric contains threads of aromatic polyamide. Press pad ( 10 ) according to one of the preceding claims, characterized in that the fabric contains synthetic threads wrapped with metal threads. Press pad ( 10 ) according to one of the preceding claims, characterized in that it is characterized by a symmetrical arrangement of the layers, wherein the median plane of the layer ( 1 ) from a tissue, the plane of symmetry of the press pad ( 10 ).