DE102011087636A1 - Method for removing releasable adhesive bond between frame and windscreen of motor car, involves heating expanded functional layer at temperature level such that functional layer is embrittled to remove pane from frame - Google Patents

Abstract

The method involves heating a functional layer (30) in a region of an adhesive bond between a pane (4) and a frame (2) at a temperature level such that the functional layer is expanded. The expanded functional layer is heated at another temperature level such that the functional layer is embrittled to remove the pane from the frame, where the latter temperature level is greater than the former temperature level. The functional layer is integrated into an adhesion layer (12), where the functional layer comprises two active ingredients for producing expansion and embrittlement, respectively. An independent claim is also included for a releasable adhesive bond.

Description

The invention relates to a method for removing a disc inserted by gluing in a frame according to the preamble of claims 1 and 2 and a releasable adhesive bond between a disc and a frame according to the preamble of claims 3 and 4.

From the DE 600 19 109 T2 For example, there is known a method of removing a disk by gluing into a frame, wherein a composition comprising thermoexpandable microcapsules is dispersed in an adhesive or in a primer or at an interface between two layers, such that upon exposure to a heat source the set adhesive will expand the thermo-expandable microcapsules and thus weaken the cohesion of the adhesive and interfacial bonding to the adjacent structure so that the disk can be removed from the frame.

The object of the invention is to further develop the known method and to provide an optimized releasable adhesive bond.

This object is achieved by a method having the features of claims 1 or 2. Claims 3 and 4 indicate releasable adhesive bonds for carrying out the method according to the invention.

The core idea of the invention according to claims 1 and 2 is to use a two-stage process for releasing the adhesive bond in which, in a first step, the functional layer responsible for releasing the bond expands and in a second step the functional layer is embrittled. Subsequently, the disc can be removed in a third step in a particularly easy manner from the frame.

While at the out of the DE 600 19 109 T2 known one-stage method after thermal activation usually comparatively high bonding forces in the bond are present, through which the removal of the disc from the frame is difficult, is achieved by the invention according to the expansion of the active ingredients in the functional layer embrittlement that remaining connection forces are reduced by the additional internal forces caused by the embrittlement to a minimum and thus the disc can be removed with very little residual forces from the frame.

According to claim 1, the two steps of expansion and embrittlement take place at different temperature levels. According to claim 2, the embrittlement is achieved after the expansion by prolonged introduction of heat energy at the same temperature level.

According to claim 3, the functional layer may contain "active ingredients" (particles) which cause both expansion and embrittlement. Alternatively, according to claim 4 different active ingredients "provided, wherein the first components of the functional layer cause an expansion and second components of the functional layer embrittlement.

The functional layer can be located anywhere within the gluing between the pane and the frame. For example, the functional layer can be arranged within the adhesive connection. In a preferred embodiment of the invention, the functional layer is provided in the transition region from the adhesive to the disc. In this area, a so-called primer layer is usually applied in order to achieve sufficient adhesion between the disc and the adhesive. The primer layer may be provided either directly on the disc or on a coating applied to the disc (so-called "screen printing"). This coating is applied by common application methods such as printing, brushing, rolling, spraying and the like. The functional layer can be integrated into the adhesion promoter layer (modified adhesion promoter layer) or be formed as an additionally inserted layer.

The term "primer layer" includes all types of layers for pretreating the disc prior to adhesive application. The fluid for the primer layer may be film-forming or deaerating. Adhesive layers are also referred to as "primers" or "activators", for example.

By the choice of the fluid for the adhesion promoter layer, the position and / or the thickness of the functional layer and thus the position of the plane in which the separation of the disk from the frame, be significantly determined. The fluid of the primer layer serves as a carrier material and encloses the active ingredients. The active ingredients are added to the fluid comparable to a filler of film-forming layer applications (such as a varnish) or mixed with a low-viscosity medium and subsequently applied to a layer. The layer is permeable, on the one hand in optical terms and on the other hand for the viscous adhesive, which thus encloses the active ingredients and builds on the active ingredients "past" the adhesive bond with the disc.

The active ingredients in the functional layer are to be interpreted in terms of their temperature behavior so that they cause no weakening and in no way a release of the adhesive bond. In particular, the functional layer is to be designed so that the active ingredients are activated by a temperature which is significantly higher than the production and operating temperature of the object, for example of the motor vehicle. In addition, care must be taken to ensure that during the production of the adhesive bond the adhesive and / or the adhesion promoter and / or the material of the functional layer are not loaded by excessive shear rates when conveying from the transport container with a correspondingly high delivery pressure (in particular in the case of viscous fluids) . become.

The active ingredients must not be incorporated in the adhesive bond in too high a concentration, as this would otherwise lead to a reduction of the adhesive strength of the adhesive. On the other hand, too low a proportion would lead to a weak effect of the functional layer. It is also essential that the active ingredients are present in the functional layer in a homogeneous distribution as possible in order to achieve a uniformly low separation force.

The expansion of the active ingredients in the first step takes place by an increase in volume many times (swelling), whereby on the one hand the functional layer itself becomes unstable, ie a reduction of the cohesive forces takes place, and on the other hand the active ingredients at the interface of the functional layer to the respective joining component ( Disc or frame) can build up high forces. These forces of the active ingredients at the interface cause on the one hand a local detachment of the active ingredients of the functional layer or a strong deformation and breaking up of this surface and on the other hand, a global lifting of the functional layer, since in the comparison of forces, the cohesion forces in the middle and in the Boundary layer remote area (adhesive side) of the functional layer are greater than the cohesive forces in the interface area to the joining component. These are in turn greater than the adhesion forces of the functional layer to the joining component.

As already mentioned, in this state, after the first step of the method according to the invention has been carried out, relatively high residual adhesion forces of the pane bonding are still present without thermal destruction of the crosslinked or cured polymer chains in the functional layer or in the adhesive, so that removal of the pane out of the frame is not readily possible.

In the second step, the active constituents are hardened and / or embrittled by a comparatively slight further increase in temperature or by continuous heating at the same temperature level, in each case at a temperature below the destruction temperature of the adhesive.

In this case, active ingredients can be used which cause both expansion and embrittlement (multifunctional active ingredients). Alternatively, a mixture of different active ingredients to achieve the expansion or embrittlement can be used (multi-fuel system).

During the second step, a hardening and / or embrittlement of the particle wall of the multifunctional active ingredients takes place. In the case of the multicomponent system, curing and / or embrittlement of the second active ingredients stored on and around the first active ingredients occurs. This process of change to the effective components, which can also correspond to a sintering process, causes an additional stress build-up in the functional layer, since their volume remains constant or decreases.

In the case of multifunctional active ingredients can be achieved by the hardening or embrittlement even at very low forces breaking or flaking of the last connecting areas.

In the case of the multicomponent system, if the adhesive forces between the active ingredients are greater than the cohesive forces in the brittle component or in the now very thin and labile wall of the first active ingredients, the first active ingredients are broken and the bond greatly weakened. This can also lead to a change in property in the functional layer itself, in which the association of the active constituents is achieved by further local stress build-up to the environment either by the joining component or by the functional layer. If, on the other hand, the adhesion force is lower, the two active components separate from one another.

In order to ensure the described mechanisms, it is necessary that the distances of the active ingredients in the cured functional layer are not too large. In the case of the multi-component system, it is necessary to ensure that the components active for the embrittlement are "enveloped" as homogeneously as possible in the expansion components.

Here, the layer thickness of the functional layer has a significant influence on the reduction of the bonding force. If the layer thickness is too thin or too thick, only a small reduction of the bonding force is achieved. For example, an optimum results in about twice the layer thickness of statistically fully expanded active ingredients.

For a quick and efficient detachment of the disc from the frame a specific adapted heating is required. The heating must not be carried out with too little increase in temperature, since this does not set any expansion and thus no reduction of the adhesion forces. Also, the heating must not be too slow, since a too low temperature gradient only a greatly reduced effect is achieved. Too rapid heating or excessive heating may cause damage or destruction of surrounding components and, where appropriate, excessive development of harmful gas. In order to avoid these possible disadvantages, the heating must take place locally and in the immediate vicinity of the functional layer.

The heating by means of current flow preferably takes place through a conductor track which runs adjacent to the functional layer. The power input for heating the functional layer, for example, by applying a DC voltage to the ends of the conductor. Alternatively, a (high-frequency) pulsed voltage can be applied to the ends of the printed conductor. For example, a modulated voltage may be applied, with a frequency of about 25 kHz and a pulse width modulation of 33%, provided by a generator plant with a power of about 2 kW. When coupling DC, for example, a power of about 1 kW for a few minutes controlled or coupled into the existing on the disc trace or in multiple tracks, possibly also via the electrical system of the vehicle.

The time required to remove a disk from a frame according to the present invention is about 30 seconds to about 4 minutes, but is highly dependent on a variety of parameters such as disk size, generator power, type of generator control, width and height the adhesive flange, ambient temperature, composition of the adhesive, etc.

The track (s) consists or consist of a correspondingly conductive material, which is selected within the requirements (for example, required temperature change rate, final temperature).

The invention finds application for example in vehicles of all kinds, such as rail vehicles, watercraft and aircraft. Advantageously, the method according to the invention can be applied to motor vehicles in order to detach a pane, in particular a windshield, from bonding to the frame, in particular a windshield frame. Accessibility is only required from outside the vehicle. On the one hand, that region of the pane on which the adhesive layer runs on the inside must be accessible from the outside of the vehicle in order to be able to introduce the thermal energy. On the other hand, the disc is lifted from the frame after the heat input into the coating from the outside of the vehicle. Windscreen edges, trim panels, covers and other windscreen surrounds can be left on the frame or on the windscreen, as long as they do not disturb the windscreen. Mechanical damage to the body and the disc are largely excluded, in contrast to mechanical separation methods with knives or wires. A reuse of detached slices is basically possible, for example, in discs that are separated out in the context of ELV recycling. The method according to the invention can also be applied to different adhesive application from vehicle to vehicle, even if the adhesive bead runs on the disk at a greater distance from the outer disk edge, for example at a distance of more than 5 cm. The adhesive bead can be made as wide or in any number of paths next to each other, without restricting the application of the method according to the invention. Even bulges of the disc have no effect on the applicability of the method according to the invention. In addition, there are only slight limitations in terms of accessibility to implement, so that the size of the implement and the radius of action that needs the arm of an operator, for example, in the case of a correspondingly large windshield of a truck or a bus are irrelevant.

Loosening the bond can be done in a very short time (for example, less than two minutes) and can also be automated.

A possible embodiment of the invention is illustrated in the drawing and will be described below. The single FIGURE shows a schematic structure of a releasable adhesive bond according to the invention in a perspective exploded view.

In a frame 2 For example, a windshield frame of a motor vehicle, is a slice 4 , For example, a windshield used. The frame 2 is with a surface coating 6 , For example, a vehicle paint, provided. The disc 4 is on her the frame 2 facing side with a coating 8th provided, for example, with a screen printing in the form of a black cover printing.

On the coating 8th is a conductor track 10 , For example, applied as silver print. To the track 10 closes a first primer layer 12 at. The primer layer 12 forms the topmost layer on the disk 4 and is in direct contact with the adjoining adhesive layer 14 , In the same way is on the surface coating 6 of the frame 2 a second adhesion promoter layer 16 arranged. The adhesive layer 14 For example, when applying adhesive, it has a triangular cross-section, with the base of the triangular bead of the adhesive layer 14 on the first primer layer 12 is arranged. When joining with the adhesive layer 14 provided disk 4 to the frame 2 becomes the triangular adhesive layer 14 pressed flat and in the final state ideally has a barrel-shaped cross-section.

According to the invention are in the adhesive layer 12 effective ingredients 20 contain one in their entirety 30 form the designated functional layer. The active ingredients 20 in the in the primer layer 12 integrated functional layer 30 are designed so that they in a two-stage process with targeted temperature increase initially an expansion in the adhesive layer 12 and then cause embrittlement of the same, so that the disc 4 with only very low adhesion forces between the conductor track 10 and the adhesive bead 14 held on the frame. The thermal energy is in this case by applying an electric current to the conductor track 10 applied. Due to the direct contact of the primer layer 12 with the conductor track 10 the heat energy is transferred directly into the bonding agent layer 12 integrated functional layer 30 initiated. The temperature in the functional layer 30 is due to the flow of current in the conductor track 10 regulated.

Alternatively or additionally, the functional layer 30 (with their active ingredients 20 ) in the primer layer 16 be provided. In this case, however, care must be taken that the introduction of heat energy in the area of the adhesive layer 14 due to the high thermal conductivity of the usually metallic material of the frame 2 is difficult. It may also lead to adverse effects on the paint coating of the frame 2 as well as arranged on the frame components.

The invention can be summarized as follows: In the method according to the invention for removing a by bonding in a frame 2 inserted disc 4 is the glue joint between disc 4 and frame 2 by a two-stage activatable functional layer 30 solved by introducing heat energy in a first step, an expansion of the functional layer 30 and in a second step embrittlement of the functional layer 30 done so that below the disc 4 in a third step in a simple way out of the ordinary 2 can be removed.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 60019109 T2 [0002, 0006]

Claims (7)

Method for removing a pane inserted by gluing into a frame, wherein a functional layer activatable by heating is provided in the region of the glued connection between the pane and the frame and wherein at least partial detachment of the gluing between pane and frame is achieved by heating the functional layer, characterized in a first step, by heating to a first temperature level, the functional layer ( 30 ) is expanded, in a second step by heating to a second temperature level, which is higher than the first temperature level, the functional layer ( 30 ) is embrittled and in a third step the disc ( 4 ) out of the frame ( 2 ) Will get removed. Method for removing a pane inserted by gluing into a frame, wherein a functional layer activatable by heating is provided in the region of the glued connection between the pane and the frame and wherein at least partial detachment of the gluing between pane and frame is achieved by heating the functional layer, characterized that in a first step by heating to a certain temperature level, the functional layer ( 30 ) is expanded, in a second step by prolonged heating at the specific temperature level, the functional layer ( 30 ) is embrittled and in a third step the disc ( 4 ) out of the frame ( 2 ) Will get removed. Releasable adhesive bond between a pane and a frame, with a functional layer activatable by heating; for carrying out the method according to claim 1 or 2, characterized in that the functional layer ( 30 ) effective ingredients ( 20 ) which cause both expansion and embrittlement. Releasable adhesive bond between a pane and a frame, with a functional layer activatable by heating, for carrying out the method according to claim 1 or 2, characterized in that the functional layer ( 30 ) first and second active ingredients ( 20 ), the first constituents ( 20 ) an expansion and the second components ( 20 ) cause embrittlement. Releasable adhesive bond according to claim 3 or 4, having a bonding agent layer between the pane and the bonding adhesive, characterized in that the functional layer ( 30 ) into the primer layer ( 12 ) is integrated. Detachable adhesive bond according to one of Claims 3 to 5, having a bonding agent layer between the frame and the bonding adhesive, characterized in that adjacent to the functional layer ( 30 ) an electrical conductor track ( 10 ) is provided. Releasable adhesive bond according to one of claims 3 to 6, characterized in that the disc ( 4 ) is a windshield of a motor vehicle, which in a windshield frame ( 2 ) is recorded.

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