DE102012009381A1 - Microwave transmitter for use in automotive industry, has outlet device arranged at waveguide and/or coaxial cable, and adhesive layer arranged between surfaces of components, where height of outlet opening of outlet device is variable - Google Patents

Abstract

The transmitter has a generating unit for generating microwaves, and a waveguide or a coaxial cable for forwarding of the microwaves. An outlet device (10) e.g. antenna head, is arranged at the waveguide and/or the coaxial cable, where the microwaves are emitted over the outlet device for heating an adhesive layer. The adhesive layer is arranged between mutually facing surfaces of components, where height (H1) of an outlet opening (16) of the outlet device is variable. The height of the outlet opening is adaptable to height (H2) of the adhesive layer by a control device (28). An independent claim is also included for a method for operating a microwave transmitter.

Description

The invention relates to a microwave transmitter with a generating device for generating microwaves and with a waveguide for transmitting the microwaves. Furthermore, the invention relates to a method for operating a microwave transmitter.

In vehicle construction, in particular in the vehicle body shell, different joining methods are used to connect (structural) components with each other. While welding processes such as spot welding are used to join metallic components, these common methods fail to bond together components made of fiber-reinforced plastics. Also, joining methods using rivets or bolts, such as Rivtac ^© technology, cause problems in joining carbon fiber reinforced plastic components because of contact corrosion. However, these joining methods for connecting components made of fiber-reinforced plastic with non-conductive fibers can be used.

For joining components made of carbon fiber reinforced plastic (CFRP) with other CFRP components or metallic components therefore preferably adhesive bonds are used. However, the curing of the adhesive takes a certain amount of time. To ensure that the components to be joined together do not slip during the curing of the adhesive, the components are fixed during curing. This can be done, for example, by mechanical tensioning devices.

If adhesives are used for structural bonding in vehicle construction, a relatively long time is usually provided during which the adhesive is free-flowing, so that it does not harden in the application pipe between two consecutive operations of applying adhesive and thereby clogs the application pipe. Usually, therefore, a so-called "open time" of the adhesive of about 15 minutes is desired within which the adhesive must be applied and the joining partners must be joined together at the latest in order to ensure adequate wetting. On the other hand, it is desirable for the adhesive to harden comparatively quickly once the components have been joined, because then an assembly produced by bonding at least two components can be transported or further processed quickly and without additional fixing devices.

The DE 10 2007 000 862 A1 describes a method for connecting a holder to an aircraft component, which is formed from a fiber composite plastic. In this case, a heat-activatable adhesive material is arranged between the holder and the component consisting of the fiber composite plastic. The adhesive is activated by means of induction heat, in that an inductor generates currents and thus heat in a metallic network. The metallic mesh may in this case be arranged in the connection region or in the holder or in the component of the fiber composite plastic.

The introduction of heat into the adhesive serves to shorten the time required to cure the adhesive. By curing the adhesive, the components are fixed relative to each other, so that mechanical tensioning devices that provide for the fixation prior to curing of the adhesive can be removed.

However, the introduction of thermal heat in the adhesive layer by means of the inductor requires that the adhesive layer is easily accessible.

Object of the present invention is to provide a microwave transmitter and a method of the type mentioned, which or which allows improved fixation of components.

This object is achieved by a microwave transmitter having the features of patent claim 1 and by a method having the features of patent claim 8. Advantageous embodiments with expedient developments of the invention are specified in the dependent claims.

In the microwave transmitter according to the invention an outlet device is arranged on the waveguide (or the coaxial cable), via which the microwaves for heating an adhesive layer, which is arranged between mutually facing surfaces of a first component and a second component, can be dispensed. In this case, a size of an outlet opening of the outlet device can be changed. This makes it possible to quickly adapt the size of the outlet opening to the respective joining situation and thus to achieve optimum local hardening of the adhesive layer.

In an advantageous embodiment of the invention, the outlet opening is at least substantially rectangular, wherein a height of the outlet opening, which is smaller than its width, is variable. As a result, the size of the outlet opening can be adapted particularly well to the height of the adhesive layer, that is, to different thicknesses of the adhesive layer.

In a further advantageous embodiment of the invention, the outlet device in a Partial area, the cross section of which tapers towards the outlet opening, V-shaped walls tapering toward the outlet opening. As a result, the microwaves can be focused particularly well on the area of the adhesive layer to be cured.

In this case, at least one of the walls can be movably held on a main body of the outlet device. For example, by moving the wall in the vertical direction and / or in the longitudinal direction of the outlet device, the geometry of the outlet opening can be changed.

Preferably, however, the at least one wall is pivotally supported on the base body. This makes it possible to vary the size of the outlet opening particularly reliable, precise and fast.

In a further advantageous embodiment of the invention, a pivot axis of the at least one wall coincides with a direction indicating the width of the outlet opening, since the height of the outlet opening can be adapted particularly well to the different adhesive thicknesses.

It is furthermore advantageous if the microwave transmitter comprises a detection device which is designed to detect a size of the adhesive layer. By means of a control device of the microwave transmitter, the size of the outlet opening is then adjustable as a function of the size of the adhesive layer. This allows a particularly convenient operation of the microwave transmitter, since the size of the outlet opening does not need to be changed manually, but the change in the geometry of the outlet opening is automatically controlled depending on the size of the adhesive layer.

Finally, it has proven to be advantageous if, by means of the control device, a height of the outlet opening can be adapted to a height of the adhesive layer. Thus, a region of the adhesive layer, which can be heated by means of the microwaves, can be hardened quickly and in a particularly good manner.

In the method according to the invention for operating a microwave transmitter, microwaves are generated by means of a generating device of the microwave transmitter. The microwaves are passed through a waveguide or a coaxial cable of the microwave transmitter. The microwaves are emitted via an outlet device arranged on the waveguide, wherein a size of an outlet opening of the outlet device is changed. This makes it possible to adjust the outlet of the microwaves through the outlet opening as appropriate.

Advantageously, an adhesive layer is heated by means of the microwaves, which is arranged between mutually facing surfaces of a first component and a second component. Thus, in the case of poorly accessible splices, heat can be locally introduced into the adhesive layer by applying it to the microwaves from the side. This can be done particularly well adapted to the respective joining situation, in particular to different thicknesses of the adhesive layer due to the variability of the size of the outlet opening.

The advantages and preferred embodiments described for the microwave transmitter according to the invention also apply to the method according to the invention and vice versa.

The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the figure description and / or shown alone in the figure can be used not only in the respectively specified combination but also in other combinations or alone, without the scope of To leave invention.

Further advantages, features and details of the invention will become apparent from the claims, the following description of preferred embodiments and from the drawing.

This shows schematically an outlet device for a microwave sensor, by means of which poorly accessible splices can be applied from the side with microwaves.

From a microwave transmitter, which comprises a generating device for generating microwaves and a waveguide for transmitting these microwaves, in the figure is an outlet device 10 shown. This outlet device 10 can also be referred to as an antenna head.

About a flange 12 is the outlet 10 coupled to the (not shown) waveguide or coaxial cable of the microwave transmitter. A basic body 14 the outlet device 10 is formed substantially muzzle-shaped, wherein an outlet opening 16 the outlet device 10 has a height H ₁ , which is significantly smaller than a width B of the body 14 ,

This outlet opening 16 from which emit the microwaves during operation of the microwave transmitter, so in the present case is rectangular and formed in the manner of a flat, wide gap. Here, the height H _{1 of} the outlet opening 16 by pivoting a wall 18 the outlet device 10 to be changed. This allows a variable adjustment of the size of the outlet opening 16 and such an adaptation to the size or position of an adhesive layer, which with the from the outlet opening 16 exiting microwaves and thereby heated for the purpose of a particularly rapid curing.

By this embodiment of the outlet 10 The microwaves can be introduced particularly well from the side into a flat adhesive gap. As a result, an adhesive located in the adhesive gap can be heated very well from the side by the microwaves. This is particularly advantageous for poorly accessible adhesive joints of components made of carbon fiber reinforced plastics (CFRP), as they can be used for a structure, in particular for a body of a motor vehicle. Because the electrically conductive carbon fibers of CFRP components shield microwaves, they can not penetrate through the component into the adhesive layer. Will that be the outlet device 10 However, having microwave transmitter arranged so adjacent to the adhesive gap that the outlet opening 16 the adhesive layer faces, so can from the outlet opening 16 Exiting microwaves penetrate into the adhesive and heat it locally. As a result, the adhesive cures locally, namely in the area exposed to the microwaves.

In one of the outlet opening 16 spaced, rear portion 20 of the basic body 14 this has a greater height H ₂ . Starting from this subarea 20 namely, the outlet device tapers 10 towards the outlet opening 16 , Here's a bottom wall 22 and the upper wall in the figure 18 V-shaped to the outlet opening 16 towards each other. To the height H _{1 of} the outlet opening 16 to change, in the present case, the upper wall 18 to, a pivot axis S is pivoted, the extension direction of the width B of the body 14 is parallel. A corresponding pivoting movement of the wall 18 is in the figure by an arrow 24 illustrated. The wall 18 may be shown by way of example by means of hinges 26 to the body 14 be connected.

The microwave transmitter further comprises a sensor (not shown) by means of which the height of the glue gap can be detected. On a signal from the sensor then provides a control unit 28 the height H _{1 of} the outlet opening 16 of the microwave transmitter in order to achieve an optimal local curing of the adhesive.

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 102007000862 A1 [0005]

Claims (10)

Microwave transmitter with a generating device for generating microwaves and with a waveguide or a coaxial cable for transmitting the microwaves, characterized in that on the waveguide or the coaxial cable an outlet device ( 10 ) is arranged, via which the microwaves can be issued for heating an adhesive layer, which is arranged between mutually facing surfaces of a first component and a second component, wherein a size (H ₁ ) of an outlet opening ( 16 ) of the outlet device ( 10 ) is changeable. Microwave transmitter according to claim 1, characterized in that the outlet opening ( 16 ) is at least substantially rectangular, wherein a height (H ₁ ) of the outlet opening ( 16 ), which is smaller than the width (B), is changeable. Microwave transmitter according to claim 1 or 2, characterized in that the outlet device ( 10 ) in a subarea ( 22 ) with itself to the outlet opening ( 16 ) tapered cross-section V-shaped to the outlet opening ( 16 ) walls ( 18 . 22 ) having. Microwave transmitter according to claim 3, characterized in that at least one of the walls ( 18 ), in particular pivotable, on a base body ( 14 ) of the outlet device ( 10 ) is held. Microwave transmitter according to claim 4, characterized in that a pivot axis (S) of the at least one wall ( 18 ) with a width (B) of the outlet opening ( 16 ) coinciding direction. Microwave transmitter according to one of claims 1 to 5, characterized in that the microwave transmitter has a detection device for detecting a size of the adhesive layer, wherein by means of a control device ( 28 ) the size of the outlet opening ( 16 ) is adjustable depending on the size of the adhesive layer. Microwave transmitter according to claim 6, characterized in that by means of the control device ( 28 ) a height (H ₁ ) of the outlet opening ( 16 ) is adaptable to a height of the adhesive layer. Method for operating a microwave transmitter, in which by means of a generating device of the microwave transmitter microwaves are generated, and in which the microwaves are passed through a waveguide or a coaxial cable of the microwave transmitter, characterized in that the microwaves arranged on one of the waveguide and the coaxial cable Outlet device ( 10 ), wherein a size of an outlet opening ( 16 ) of the outlet device ( 10 ) is changed. A method according to claim 8, characterized in that wherein by means of the microwaves an adhesive layer is heated, which is arranged between mutually facing surfaces of a first component and a second component. Method according to claim 9, characterized in that the outlet device ( 10 ) is positioned in such a way opposite to the mutually facing surfaces that a longitudinal side of the outlet opening ( 16 ) is aligned approximately parallel to an adhesive gap provided with the adhesive between the components.

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