DE102011005379A1 - Optoelectronic device e.g. display screen, for converting electronic signals into light or vice versa, has delimitation element partially limiting intermediate space that is partially filled with bonding agent with certain viscosity - Google Patents

Abstract

The device (1) has a carrier element (2) and a cover element (3) arranged perpendicular to a normal-axis (4) and separated from each other by an intermediate space (5). A delimitation element is arranged on the carrier element and partially limits the space in direction that is perpendicular to the normal-axis. The space is partially filled with a bonding agent (6) i.e. acrylate, with certain viscosity. The delimitation element forms a positioning device for positioning the cover element relative to the carrier element, where the cover element is designed as a sensor screen i.e. touch screen. An independent claim is also included for a method for manufacturing an optoelectronic device.

Description

The invention relates to an optoelectronic device. The invention also relates to a method for producing an optoelectronic device.

Opto-electronic devices allow the conversion of electronically generated signals into light, or conversely, the conversion of light into electrical signals. They include, for example, screens, data carriers and solar modules.

There is a continuing need to further develop such devices and in particular to improve their production.

The invention is therefore based on the object to provide an improved optoelectronic device. A further object of the invention is to improve a method for producing an optoelectronic device.

These objects are achieved by the features of claims 1 and 11.

The essence of the invention is to separate a carrier element and a cover element by a delimiting element in an optoelectronic device.

The limiting element is preferably designed such that it determines the position of the covering element relative to the carrier element, in particular its distance. It advantageously forms a positioning device for the cover element relative to the carrier element. As a result, the application of the cover element on the support element is substantially simplified. By a precise arrangement and / or formation of the delimiting element on the carrier element, the relative position of the covering element to the carrier element can be predetermined in particular even before the application of the covering element. As a result, in particular a precise portioning and positioning of the binder between the carrier element and the cover element is simplified. In addition, this facilitates a precise positioning of the cover element relative to the carrier element.

A simple way to form the limiting element as a positioning device is to provide the limiting element with a plant-shoulder.

Advantageously, the limiting element is provided with at least one opening. Through this opening a material exchange in the delimited by the limiting element area is possible.

The opening is particularly adapted to the viscosity of a binder such that it is impermeable when filling the binder in the space between the support member and the cover member, but is permeable from a predetermined minimum pressure for the binder. This ensures that the boundary element during filling of the binder in the intermediate space acts as a barrier for the binder, which, however, is permeable to the binder when applying the cover element from a predetermined contact pressure of the same.

Preferably, in the finished optoelectronic device, the binder completely fills the gap between the support member and the cover member. The gap is in particular free of bubbles. This is important for a high optical quality of the device.

It is also advantageous to choose a binder which is transparent after curing.

The cover element can be designed as a sensor screen.

According to the method according to the invention, the limiting element is applied with a predetermined shape to the carrier element, such that it limits a first area on the carrier element circumferentially at least in sections. The limiting element thus specifies in which area the binder is applied to the carrier element.

Advantageously, a part of the binder may emerge from the first area when the cover element is applied through one or more openings in the delimiting element. This facilitates the application of the binder, since an excess amount of the applied on da carrier element binder thereby in a simple manner from the first area 12 can escape.

Applying the binder in the liquid state and curing it after application of the cover element simplifies the manufacture of the device.

Preferably, the cover element is fixed after curing of the binder in a predetermined position relative to the support member. This ensures high precision.

Further features and details of the invention will become apparent from the description of several Embodiments with reference to the drawing. Show it:

1 A schematic representation of the principal elements of the optoelectronic device,

2 a schematic view of the principal elements of an alternative optoelectronic device,

3 a schematic cross section through a further optoelectronic device,

4 to 7 schematic detail views of a cross section of various embodiments of a limiting element,

8th to 11 schematic side views of various embodiments of the limiting element,

12 and 13 a schematic cross section through a further embodiment of an optoelectronic device at different times of the manufacturing process,

14 a representation accordingly 13 another optoelectronic device,

15 a schematic cross section through a further embodiment of an optoelectronic device,

16 a schematic cross-section through a further embodiment of an optoelectronic device, and

17 to 19 schematic cross-sections through optoelectronic devices to illustrate certain aspects of a manufacturing process.

First, the basic elements of an optoelectronic device according to the invention 1 described. The optoelectronic device 1 comprises a carrier element 2 and a cover element 3 , The carrier element 2 and the cover element 3 are perpendicular to a normal 4 , arranged parallel to each other. They are through a gap 5 separated from each other. They are thus in the direction of the normal 4 spaced apart. The gap 5 is at least partially with a binder 6 filled.

The carrier element 2 is preferably made of glass or plastic. It can also be designed as a film. It may also have a polarizing effect on light, ie it may in particular be designed as a polarizing filter or comprise a polarizing filter. It is also possible as a carrier element 2 to use an optoelectronic device. It is also possible that the device 1 several carrier elements 2 includes. The carrier element 2 is preferably transparent. It has, in particular for light in the visible spectral range, a transmittance of at least 45%, in particular at least 60%, in particular at least 75%, for light in the visible spectral range.

The carrier element 2 is mechanically stiff. It is also liquid-tight and in particular dust-proof and preferably gas-tight.

The cover element 3 may be made of glass or plastic, for example. It can be designed as a polarizing filter. It can also be designed as an optoelectronic component, in particular as a sensor screen ("touchscreen"). It is preferably transparent. In particular, it has a transmittance for light in the visible spectral range of at least 45%, in particular at least 60%, in particular at least 75%. The device 1 can also have multiple cover elements 3 include. These can be relative to the normals 4 be arranged side by side or one behind the other.

The binder is liquid in the initial state. In particular, it is viscous, ie it is a viscous fluid, in particular a viscous fluid. It has a viscosity V in the initial state, that is to say in the non-crosslinked state. The viscosity V of the binder 6 is at a temperature of 20 ° C in the range of 100 mPas to 10000 mPas, in particular in the range of 200 mPas to 3000 mPas, in particular in the range of 200 mPas to 1500 mPas. In the cured state, ie in the crosslinked state, the binder in particular has a Shore hardness in the range of 0 Shore to 10 Shore, in particular less than 5 Shore on.

As a binder 6 In particular, a polymer, in particular a synthetic polymer, in particular selected from the group of silicones serve. Alternatively, as a binder 6 an organic compound, in particular selected from the group of epoxides serve. An acrylic, in particular an acrylate, also comes as a binder 6 into consideration.

The binder 6 is curable. The binder may in particular be thermally crosslinking. The binder 6 is in particular curable by irradiation with electromagnetic radiation, in particular in the infrared or in the ultraviolet range. The binder 6 has one during curing Shrinkage of less than 0.1 vol .-% on. Preferably, the binder is 6 flexible even in the cured state.

The binder 6 acts in particular as an adhesive between the carrier element 2 and the cover member 3 , It has a high adhesion to these two elements.

The binder 6 is preferably transparent. It is transparent especially in the cured state. It has, in particular for light in the visible spectral range, a transmittance of at least 45%, in particular at least 60%, in particular at least 90%.

The binder 6 fills the gap 5 between the carrier element 2 and the cover element 3 preferably completely off. The contact between the binder 6 and the carrier element 2 is particularly inclusion-free, in particular bubble-free. The contact between the binder 6 and the cover element 3 is particularly inclusion-free, in particular bubble-free.

The device 1 can also have a frame 7 exhibit. The frame 7 can be revolving to the carrier element 2 be arranged. It can also be revolving around the cover element 3 be arranged. He surrounds the carrier element 2 and / or the cover element 3 especially in the direction perpendicular to the normal 4 periphery. The frame 7 can be for example made of metal or plastic.

Of course, the optoelectronic device comprises 1 an optoelectronic component. This is in the 1 and 2 not shown separately. According to the invention, it is possible that the carrier element 2 and / or the cover element 3 are formed as optoelectronic component, ie, the optoelectronic component of the optoelectronic device 1 form. In this case, the optoelectronic device comprises 1 not necessarily another, separate optoelectronic device. However, this is also possible.

The following are with reference to the 3 to 7 specific details of an embodiment of the optoelectronic device 1 described. The optoelectronic device 1 according to 3 includes a first limiting element 8th , The delimiter element 8th is on the carrier element 2 arranged. It limits the gap 5 in the direction perpendicular to the normal 4 at least in sections. The delimiter element 8th specifically limits a first, closed area 12 on the carrier element 2 at least in sections in the direction perpendicular to the normal 4 , The delimiter element 8th is in particular of a dimensionally stable material, in particular silicone. It has a predetermined shape. It points in particular in the direction parallel to the normal 4 a defined, predetermined cross section. The delimiter element 8th can be formed elastically deformable. As a limiting element 8th In particular, a so-called silicone bead can be provided.

The delimiter element 8th serves in particular as a support device for the cover element 3 , It is designed such that it is the position of the cover element 3 relative to the carrier element 2 sets. It specifies in particular the position of the cover element 3 in the direction perpendicular to the normal 4 relative to the carrier element 2 firmly. It can also change the position of the cover element 3 in the direction of the normal 4 relative to the carrier element 2 establish.

The delimiter element 8th is in particular designed such that there is a positioning device for the cover element 3 forms. It may in particular be designed such that it has a self-adjusting positioning device for the cover element 3 forms. The delimiter element 8th in other words, is designed such that the cover element 3 when applied to the binder 6 from the delimiter element 8th in a predetermined position relative to the carrier element 2 is brought. This is the one by a predetermined arrangement of the limiting element 8th on the carrier element 2 on the other hand through the formation of the delimiting element 8th achieved with a predetermined cross-section.

According to the in 3 illustrated embodiment, the cross section of the limiting element 8th a plant-shoulder 9 on. The plant shoulder 9 can by a rectangular recess in the cross section of the limiting element 8th be formed. The plant shoulder 9 includes a lateral attachment wall 20 and a pad area 21 , The plant wall 20 is in particular parallel to the normal 4 aligned. The support surface 21 is in particular perpendicular to the normal 4 , ie parallel to the carrier element 2 , aligned. By the targeted arrangement of the plant wall 20 becomes the position of the cover element 3 in the direction perpendicular to the normal 4 predetermined. By the targeted arrangement of the support surface 21 becomes the position of the cover element 3 in the direction of the normal 4 relative to the carrier element 2 established. According to the in 3 illustrated embodiment has the investment shoulder 9 a shoulder height h, which is just a thickness d of the cover element 3 equivalent. In general, the height h of the plant-shoulder 9 preferably in the range of 0.1 mm to 3 cm, in particular in the range of 0.2 mm to 2 cm, in particular in the range of 0.25 mm to 1 cm.

In principle, it is sufficient to determine the position of the cover element 3 in the direction perpendicular to the normal 4 if the delimiter element 8th in this direction only on one side of the cover element 3 a plant-shoulder 9 having. Preferably, the limiting element 8th however, a circumferential investment shoulder 9 , in particular a peripheral investment wall 20 on.

In the 4 to 7 are other possible cross sections of the delimiter element 8th shown. According to 4 has the bounding element 8th several, step-shaped plant shoulders 9 on. This is especially useful if multiple cover elements 3 in the direction of the normal 4 one behind the other on the carrier element 2 should be arranged. By means of the delimiter element 8th according to 4 can be the distance of each cover elements 3 to the carrier element 2 as well as the distance between the individual cover elements are predetermined determined with each other.

According to the in 5 illustrated embodiment is the plant wall 20 the plant-shoulder 9 designed as an inclined surface. The sloping surface closes with the normal 4 an angle β in the range of 5 ° to 60 °, in particular in the range of 10 ° to 45 °.

According to the in 6 illustrated embodiment, the limiting element 8th in addition to the plant shoulder 9 a supernatant 10 on. This is the plant shoulder 9 formed in this embodiment as a groove. The height h investment wall 20 the plant-shoulder 9 defines here just the free width of the groove. It is preferably just as large as the thickness d of the cover element 3 , The cover element 3 can thus be inserted into the groove and thus from the limiting element 8th be kept safe. In this embodiment, 0.95 d ≦ h ≦ 1.2 d, in particular d ≦ h ≦ 1.1 d.

According to the in 7 illustrated embodiment, the limiting element 8th preferably a quadrangular, in particular a rectangular cross section. This may be particularly useful when the cover element 3 at least on one side in the direction perpendicular to the normal 4 over the boundary element 8th should survive and / or if the cover element 3 Having structures which the limiting element 8th at least partially encompass.

Of course, it is possible the different embodiments of the limiting element 8th to combine with each other. For example, it is possible to use the delimiter element 8th on one side of the cover element 4 with a plant shoulder 9 while training on the relative to the normal 4 opposite side of the cover element 3 no investment shoulder 9 but has a preferably rectangular cross-section.

The delimiter element 8th in other words may have a sectionally different cross section.

The delimiter element 8th can be parallel to the carrier element 2 be formed continuously. It is particularly impermeable to the binder in this case 6 ,

However, it may be advantageous to the limiting element 8th form with openings. Different alternatives are in the 8th to 11 shown. Identical components are designated by the same reference numerals as in the previous embodiments, to which reference is hereby made.

According to the in 8th illustrated embodiment is the limiting element 8th intermittently on the carrier element 2 applied. In other words, it has an opening which extends in the direction of the normal 4 extends over its entire height. It is thus formed discontinuous in the region of the opening. In general, the opening will also be referred to as an opening 11 designated. The delimiter element 8th has at least one opening 11 on. It has in particular a plurality of openings 11 on. The openings 11 are especially in the direction perpendicular to the normal 4 equidistant in the delimiter element 8th arranged. They can also be uneven in the bounding element 8th be arranged. In particular, they can be used exclusively in a specific area, in particular in a simply connected area, which has at most 3/4, in particular at most 1/2, in particular at most 1/4 of the total circumference of the delimiting element 8th be arranged.

The opening 11 is not necessarily in the direction of the normal 4 from the delimiter element 8a completed. It can be especially in the direction of the normal 4 one-sided open (see 9 . 11 ), open on both sides (see 8th ) or closed on both sides (see 10 ) be formed.

The opening 11 points in the direction perpendicular to the normal 4 a free width b, which is in the range of 10 microns to 5 mm, in particular in the range of 50 microns to 1 mm. The free width b of the opening 11 is preferably less than 1 mm, in particular less than 0.5 mm, in particular less than 0.1 mm. The opening 11 , in particular their free width b, is such to the viscosity V of the binder 6 adjusted that while filling the binder 6 in the area 12 for the binder 6 is impermeable. However, it is in particular from a predetermined minimum pressure for the binder 6 permeable. The minimum pressure from which the opening 11 for the at least not fully cured binder 6 is permeable, is in the range of 105 kPa to 300 kPa, in particular in the range of 110 kPa to 150 kPa.

This means that the opening 11 under normal conditions for the binder 6 is impermeable, but this by applying pressure through the opening 11 can be pressed through. The binder 6 can thus be in case of concern of a certain minimum pressure through the opening 11 pass through and thus from the boundary element 8th limited area 12 on the carrier element 2 escape.

In the in the 9 and 11 illustrated embodiments of the limiting element 8th is the opening 11 each in the direction of the normal 4 open on one side. The opening 11 can on the the carrier element 2 facing side of the limiting element 8th be open. You can also on the the carrier element 2 applied side of the delimiter element 8th be open. In this case, the opening points 11 preferably an extension in the direction of the normal 4 which is at least as large, in particular, is the same size as the thickness d of the cover element 3 ,

As in 10 shown, the opening can be 11 also in the direction of the normal 4 be closed on both sides. It may in particular be formed as a hollow cylinder. In the direction of the normal 4 is the opening 11 preferably at the level of the intermediate space 5 ie between the cover element 3 and the carrier element 2 arranged. However, it is also possible the opening 11 to be arranged so that they from the cover element 3 is completed, provided that this on the delimiting element 8th is applied. There may also be several openings 11 in the direction of the normal 4 be arranged one above the other.

Of course it is possible, the different embodiments of the openings 11 in a single boundary element 8th to combine with each other.

According to the in the 12 to 14 illustrated embodiments includes the optoelectronic device 1 according to the embodiments described above, the carrier element 2 and the cover element 3 , these being perpendicular to norms 4 , arranged parallel to each other and through the gap 5 are separated from each other. The gap 5 is at least partially, in particular completely with the binder as in the previously described embodiments 6 filled. These embodiments also include the first limiting element 8th which is on the support element 2 is arranged.

The delimiter element 8th can according to the previously described embodiments, in particular according to one or more of the in the 4 to 7 and 8th to 11 be formed embodiments shown. It limits in particular the first area 12 on the carrier element 2 at least in sections in the direction perpendicular to the normal 4 ,

In addition, the device 1 a second limiting element 13 on. The second boundary element 13 is also on the carrier element 2 arranged. It is at least partially in a direction perpendicular to the normal 4 from the first boundary element 8th spaced. It may in particular in sections parallel to the first limiting element 8th be arranged. It is especially out of the area 12 arranged.

The second boundary element 13 is in particular at a distance of at most 20 mm to the first limiting element 8th arranged.

The second boundary element 13 may have interruptions which are permeable to air. This can be done by placing the cover element 3 be advantageous because this is an escape of air from the second boundary element 13 , the carrier element 2 and the cover element 3 enclosed space is made possible. The interruptions can in particular in the area of the corners of the second limiting element 13 or evenly distributed over its entire length.

The second boundary element 13 is formed such that it is perpendicular to the normal 4 a barrier to the binder 6 forms. It is especially for the binder 6 impermeable.

The carrier element 2 and the two boundary elements 8th . 13 limit a channel 14 , Here, the carrier element forms 2 a canal floor. The boundary elements 8th . 13 form side walls of the canal 14 , The channel 14 forms an overflow or equalization channel for the first boundary element 8th limited first area 12 , The channel 14 surrounds the first area 12 at least partially. The channel 14 surrounds the first area 12 on at least one, in particular at least two, in particular at least three sides. Preferably, the channel surrounds 14 the first area 12 Completely.

The channel 14 serves to record from the first area 12 over the first boundary element 8th and / or through the openings 11 in this passing binder 6 , The channel 14 is at most partially with binder 6 filled.

The second boundary element 13 can as previously for the first delimiter element 8th described as a positioning device for the cover element 3 Act. It may in particular a cross section corresponding to one of the in the 4 to 7 have shown embodiments.

The second boundary element 13 Can be a high adhesion to the carrier element 2 and / or the cover element 3 exhibit. It thus supports the mechanical connection between the cover element 3 and the carrier element 2 , The second boundary element 13 and / or the carrier element 2 and / or the cover element 3 may be surface treated to increase the adhesion between these elements. This can also apply to the first delimiter element 8th be provided.

According to the in the 12 and 13 illustrated embodiment is the channel 14 through the cover element 3 covered. It can at least partially, in particular completely from the cover element 3 be covered. However, he can also, as in the in 14 illustrated embodiment, in the direction of the normal 4 be open on one side.

The second boundary element 13 can in the initial state in the direction of the normal 4 have a greater total height than the first limiting element 8th , The second boundary element 13 is especially in this case in the direction of the normal 4 formed compressible.

The second boundary element 13 can also be like in the 14 illustrated embodiment in the direction of the normal 4 have a smaller total height than the first limiting element 8th , It can also just the same total height in the direction of the normal 4 have the same as the first limiting element 8th ,

At the in 14 illustrated embodiment, the second limiting element 13 detachable on the carrier element 2 be applied. In principle, this is conceivable in the area outside the first boundary element 8th First, a protective film on the carrier element 2 on which then the second boundary element 13 is applied. The protective film can after curing of the binder 6 again from the carrier element 2 subtracted from.

The second boundary element 13 may be the same material as the first bounding element 8th , It can also be made of a different material than the first limiting element 8th , As material for the second boundary element 13 In particular, a silicone or a foam in question.

According to the in the 15 and 16 illustrated embodiments includes the optoelectronic device 1 the carrier element 2 , one on the support element 2 arranged opto-electronic construction element 15 and the cover element 3 for covering the optoelectronic component 15 ,

The gap 5 between the cover element 3 and the carrier element 2 is at least partially with the binder as in the previously described embodiments 6 filled. The binder 6 which is also the first binder in these embodiments 6 is designated, is between the cover element 3 and the optoelectronic component 15 arranged.

In addition, between the optoelectronic component 15 and the carrier element 2 at least partially a second binder 16 arranged. The optoelectronic component 15 is thus by the second binder 16 from the carrier element 2 spaced. The second binder 16 fills a second space 17 between the optoelectronic component 15 and the carrier element 2 in particular completely off. The optoelectronic component 15 is thus on the one hand in the second binder 16 on the other hand in the first binder 6 embedded. It is especially complete of the first and second binders 16 and 6 locked in.

The first binder 6 fills a third space 18 between the optoelectronic component 15 and the cover element 3 in particular completely off.

Preferably, the second binder is 16 in the initial state liquid, in particular viscous. It is in particular a viscous liquid.

The second binder 16 may have a viscosity V ₂ which is just as great as the viscosity V _{1 of} the first binder. It may also have a lower viscosity V ₂ than the first binder 6 , In particular, V ₂ ≦ 1.3 V ₁ , in particular V ₂ ≦ 1.1 V ₁ , in particular V ₂ ≦ V ₁ . Also the second binder 6 is curable.

At least the first binder 6 is like the one described above Embodiments transparent. Preferably, the second binder is also 16 transparent.

The first binder 6 and the second binder 16 In particular, they have an identical refractive index for light in the visible spectral range. In principle, it is also possible that the first binder 6 and the second binder 16 are identical.

With regard to the further details of the optoelectronic device 1 , in particular for further details of the binder 6 . 16 be referred to the previously described embodiments.

In the following, different aspects of the method for producing the optoelectronic device will be discussed 1 described. In principle, for producing the optoelectronic device 1 first the carrier element 2 , the cover element 3 and the binder 6 provided. Possibly. becomes the additional optoelectronic device 15 provided. Furthermore, after application of the binder 6 on the carrier element 2 within the predetermined first range 12 the cover element 3 on the binder 6 applied. The application of the cover element 3 on the binder 6 includes contacting the cover member 3 with the binder 6 , in particular the placement of the cover element 3 on the binder 6 , In addition, the application comprises a positioning of the cover element 3 relative to the carrier element 2 , especially in the direction of the normal 4 , For this purpose, the cover element 3 especially against a resistance of the binder 6 towards the carrier element 2 to the binder 6 pressed.

Basically, the binder is provided 6 after applying the cover element 3 completely harden.

For producing the optoelectronic device 1 according to the in 3 illustrated embodiment, the first limiting element 8th on the carrier element 2 applied. For applying the limiting element 8th on the carrier element 2 For example, a dispenser, in particular a micro-dispenser, which can dispense high-precision beads provided. The delimiter element 8th is with a predetermined shape, in particular with a predetermined cross section and with a predetermined arrangement on the support element 2 applied. The arrangement in the direction perpendicular to the normal 4 , ie parallel to the carrier element 2 as well as parallel to the cover element 3 is in particular to the dimensions of the cover element 3 customized. The delimiter element 8th can be very precise, in particular with a tolerance of at most 1 mm, in particular at most 0.1 mm, in particular at most 0.01 mm, on the support element 2 be applied. The delimiter element 8th is so on the support element 2 that applied the limiting element 8th the first area 12 on the carrier element 8th peripherally limited at least in sections. It limits the first area 12 apart from the openings 11 in particular completely complete.

In this embodiment, the binder becomes 6 only after application of the delimiting element 8th on the carrier element 2 in the of the boundary element 8th limited first area 12 on the carrier element 2 applied.

According to the invention, a predetermined amount of the binder is provided 6 in the first area 12 on the carrier element 2 applied. The amount of in the first area 12 on the carrier element 2 applied binder 6 is in particular at least so great that the in the finished optoelectronic device 1 remaining space 5 between the carrier element 2 and the cover element 3 fully constantly with binder 6 is filled.

When applying the binder 6 on the carrier element 2 a meniscus forms 19 out. The meniscus 19 is especially convex.

The amount of in the first area 12 on the carrier element 2 applied binder 6 is particularly predetermined so that the first area 12 in the direction of the normal 4 at least up to the height of the boundary element 8th trained pad area 21 with the binder 6 is covered. The amount of in the first area 12 on the carrier element 2 applied binder 6 is chosen in particular such that they are in the fully cured state of the binder 6 fills a volume which is at least as large, in particular at least 1.1 × as large, in particular at least 1.2 × as large as the volume of the finished device 1 remaining gap 5 is.

When applying the cover element 3 on the binder 6 thus occurs part of the binder 6 over the boundary element 8th above. It especially occurs from the first area 12 out. In an embodiment in which the limiting element 8th openings 11 has, the binder can 6 when applying the cover element 3 even through these openings 11 from the first area 12 escape. It is possible that a part of the openings 11 when applying the cover element 3 from the cover element 3 covered, in particular closed, as soon as the distance of the cover element 3 to the carrier element 2 in the area of these openings 11 smaller than the distance of this openings 11 to the carrier element 2 , By a targeted dimensioning and / or arrangement of the openings 11 can thus be achieved that the binder 6 at different stages of application of the cover element 3 through different, predetermined openings 11 from the first area 12 exit.

The binder 6 is when applied to the carrier element 2 liquid. It will after the application of the cover element 3 hardened. It is especially after the application of the cover element 3 fully cured. Advantageously, the cover element 3 after application to the binder 6 during curing of the binder 6 in a predetermined position relative to the carrier element 2 held. For this purpose, not shown holding devices may be provided in the figures.

For making the in the 12 to 14 illustrated embodiments of the optoelectronic device 1 is done before applying the binder 6 on the carrier element 2 the second boundary element 13 on the carrier element 2 arranged. The second delimiter will be out of the first range 12 arranged. It is at least partially spaced from the first limiting element 8th arranged. It is so on the support element 2 arranged it together with this and the first delimiter element 8th the channel 14 forms.

The channel 14 This forms an overflow or catch channel. It serves to accommodate the application of the cover element 3 from the first area 12 leaking binder 6 ,

The formation and / or arrangement of the second boundary element 13 are chosen in particular so that the channel 14 when applying the cover element 3 on the binder 6 at most partially with the one from the first area 12 leaking binder 6 is replenished. Alternatively, it is possible to increase the amount of the carrier element 2 in the first area 12 applied binder 6 to choose such that a part of it when applying the cover element 2 on the binder 6 in the channel 14 passes, the channel 14 at most partially with the one from the first area 12 leaking binder 6 is completed.

According to the in the 12 and 13 illustrated embodiment, the second limiting element 13 when applying the cover element 2 in the direction of the normal 4 pressed together.

The second boundary element 13 can also as in the embodiments described above as a positioning device for the cover element 3 serve. For details refer to the previous description.

In the embodiments according to any one of 15 and 16 First, a predetermined amount of the second binder 16 within a predetermined subarea 22 on the carrier element 2 applied. After application of the optoelectronic component 15 on the second binder 16 becomes a predetermined amount of the first binder 6 on the optoelectronic component 15 applied. Then the cover element 3 on the first binder 6 applied.

The following are with reference to the 17 to 19 further aspects of the method for applying the cover element 3 on the binder 6 described. These can accordingly for the application of the optoelectronic device 15 on the second binder 16 be provided. Basically, the cover element is provided 3 for application to the binder 6 parallel to the carrier element 2 to arrange. In a particularly advantageous embodiment, the cover element 3 for application to the binder 6 at a pivot angle α to the carrier element 2 arranged. The pivot angle α is in particular in the range of 1 ° to 60 °, in particular in the range of 5 ° to 45 °.

From this situation, the cover element 3 when applied to the binder 6 in a parallel to the carrier element 2 aligned end-position pivoted. The cover element 3 is pivoted in particular with a predetermined angular velocity course w (t) in the end position. It can be pivoted in particular with a constant angular velocity w in the end position. The course of the angular velocity w (t), in particular the angular velocity w, is dependent on the viscosity V of the binder 6 selected.

When swiveling the cover element 3 is at least a temporary limit 23 on the cover element 3 formed, which is an area 24 in which the cover element 3 with the binder 6 is in contact, limited. This limit 23 shifts when pivoting the cover element 3 with decreasing pivot angle α on the cover element 3 , It shifts in particular monotonically, preferably steadily. The area 24 In other words, as the pivoting angle α decreases, it expands on the cover element 3 out. A section on the cover element 3 which at a given pivoting angle α, with the binder 6 is in contact, stands for all other pivoting angle α ≤ α ₁ with the binder 6 in touch.

It is provided in particular that the cover element 3 for application to the binder 6 by a given, relative to the carrier element 2 fixed pivot axis 25 is pivoted. The pivot axis 25 lies in particular in a plane which by the binder 6 facing side of the cover element 3 is defined. The pivot axis 25 lies in the direction perpendicular to the normal 4 especially outside the first area 12 in which the binder 6 on the carrier element 2 is applied. It lies in the direction of the normal preferably straight at the level of an upper edge of the limiting element 8th , This is thus when pivoting the cover element 3 not compressed. The pivot axis 25 can also be below an upper edge of the delimiter element 8th lie. This can be advantageous if the limiting element 8th when pivoting the cover element 3 around the pivot axis 25 in the direction of the normal 4 should be compressed. At the pivot axis 25 it can be a virtual axis. This is understood to mean that the pivot axis 25 from the constructive elements of the optoelectronic device 1 , in particular of the carrier element 2 and / or the cover element 3 and / or the delimiter element 8th is spaced. The pivot axis 25 can in this case of a holding device, not shown in the figures for holding the cover element 3 be specified.

Alternatively, it is possible that the pivot axis 25 through the delimiter element 8th is predetermined. In this case, it may be advantageous to the limiting element 8th in the area of the pivot axis 25 as sharp as possible. It preferably points in the region of the pivot axis 25 a radius of curvature of less than 1 mm.

By a pivoting application of the cover element 3 on the binder 6 a particularly precise control of the application process is made possible. By such an application, in particular inclusions, in particular bubbles, between the binder can be 6 and the cover element 3 avoid.

In an advantageous embodiment, it is provided that the binder 6 facing side of the cover element 3 before application to the binder 6 subjected to a surface treatment to the contact angle between the binder 6 and the cover element 3 to reduce. As a result, the wettability of the cover element 3 through the binder 6 elevated. It can be provided in particular, the binder 6 facing side of the cover element 3 with a primary and / or through a plasma treatment. It is also possible in particular, the cover element 3 with a suitable coating 26 to provide. As the cover element 3 can also do the the binder 6 facing side of the support element 2 before applying the binder 6 be surface treated.

According to a further advantageous embodiment, the binder is provided 6 . 16 after application to the carrier element 2 but before applying the cover element 3 or the optoelectronic component 15 partially harden. The binder 6 . 16 is cured in particular in a predetermined first volume range. It is cured in particular at least in the area of its exposed surface. In other words, on the binder 6 . 16 produces a hardened skin. This covers an underlying, not cured, ie liquid part of the binder 6 . 16 , The binder 6 . 16 In other words, it is cured in such a way that it remains liquid in at least one second volume region. The hardened skin of the binder 6 . 16 is particularly flexible. It has a high adhesion to the cover element 3 on.

For curing the binder 6 . 16 is an irradiation of the same with electromagnetic radiation, in particular in the infrared or in the ultraviolet range, provided for curing of the binder 6 . 16 can also be provided a thermal process.

For curing the binder 6 . 16 In particular, a two-photon or a multi-photon method can be provided. This allows a very targeted, precise, regional curing of the binder 6 . 16 , It is thereby possible, for example, the binder 6 to harden in such a way that it is in the region of the openings 11 remains liquid.

Of course, the features of the individual embodiments can be combined. It is particularly possible, the second binder 16 before applying the optoelectronic component 15 at least partially cure. It is also possible the second binder 16 after application of the optoelectronic component 15 but before the application of the cover element, in particular before the application of the first binder 6 on the optoelectronic component 15 completely harden.

For example, in all embodiments, a second limiting element 13 be provided.

Accordingly, the first and / or the second limiting element 8th . 13 in all embodiments as a positioning device and / or with openings 11 be educated.

Claims (15)

Optoelectronic device ( 1 ) comprising a. at least one carrier element ( 2 b. at least one first delimiter element ( 8th ), and c. at least one covering element ( 3 ), d. at least one optoelectronic component ( 2 . 3 ; 15 ), e. wherein the carrier element ( 2 ) and the cover element ( 3 ) substantially perpendicular to a normal ( 4 ), arranged parallel to each other and by a gap ( 5 ) are separated from each other, f. wherein the at least one first boundary element ( 8th i. on the support element ( 2 ) and ii. the space ( 5 ) at least in sections in the direction perpendicular to the normal ( 4 ), and g. the space ( 5 ) at least partially with a binder ( 6 ) is filled with a viscosity (V). Contraption ( 1 ) according to one of the preceding claims, characterized in that the at least one first limiting element ( 8th ) is designed such that it determines the position of the at least one cover element ( 3 ) in the direction perpendicular to the normal ( 4 ) relative to the carrier element ( 2 ). Contraption ( 1 ) according to one of the preceding claims, characterized in that the at least one first limiting element ( 8th ) is designed such that it has a positioning device for the at least one covering element ( 3 ) relative to the carrier element ( 2 ). Contraption ( 1 ) according to one of the preceding claims, characterized in that the at least one first limiting element ( 8th ) at least partially a cross section with a predefined shape, in particular with an investment shoulder ( 9 ), having Contraption ( 1 ) according to one of the preceding claims, characterized in that the at least one first limiting element ( 8th ) at least one opening ( 11 ), in particular a plurality of openings ( 11 ), having. Contraption ( 1 ) according to claim 5, characterized in that the at least one opening ( 11 ) to the viscosity ( 11 ) of the binder ( 6 ) is adjusted during filling of the binder ( 6 ) into the space ( 5 ) is impermeable to this and is permeable in particular from a predetermined minimum pressure for this. Contraption ( 1 ) according to one of the preceding claims, characterized in that the binder ( 6 ) the space ( 5 ) completely. Contraption ( 1 ) according to one of the preceding claims, characterized in that the binder ( 6 ) is transparent, especially after curing. Contraption ( 1 ) according to one of the preceding claims, characterized in that the at least one covering element ( 3 ) is designed as a sensor screen ("touch screen"). Contraption ( 1 ) according to one of the preceding claims, characterized in that it comprises a solar cell which is separated from the at least one covering element ( 3 ) is covered. Method for producing an optoelectronic device ( 1 ) comprising the following steps: - providing a carrier element ( 2 ), - providing a cover element ( 3 ), - applying at least one first limiting element ( 8th ) with a predetermined shape on the support element ( 2 ) such that the limiting element ( 8th ) a first area ( 12 ) on the support element ( 2 ) peripherally limited at least in sections, - applying a binder ( 6 ) having a viscosity (V) on the support element ( 2 ) in which of the at least one boundary element ( 8th ) limited first area ( 12 ), - applying the cover element ( 3 ) on the binder ( 6 ). Method according to claim 11, characterized in that the first limiting element ( 8th ) is formed such that the cover element ( 3 ) when applied to the binder ( 6 ) from the first boundary element ( 8th ) in a predetermined position relative to the carrier element ( 2 ) is brought. Method according to one of claims 11 to 12, characterized in that a part of the binder ( 6 ) when applying the cover element ( 3 ) through at least one opening ( 11 ), in particular through several openings ( 11 ), in the delimiter element ( 8th ) from the first area ( 12 ) exit. Process according to any one of Claims 11 to 13, characterized in that the binder ( 6 ) when applied to the carrier element ( 2 ) is liquid and after the application of the cover element ( 3 ) is at least partially, in particular completely, cured. Method according to claim 14, characterized in that the cover element ( 3 ) when curing the binder ( 6 ) in a predetermined position relative to the carrier element ( 2 ) is held.

Images