EP3602595B1 - Module cover for a key module for a key, key module for a key, and method for producing a key - Google Patents

Description

The present invention relates to a module cover for a key module for a key, to a key module for a key, to a key and to a method for producing a key.

In order, for example, to be able to use computer applications well in dark rooms, keyboards can have backlit key buttons.

The DE 10 2013 205 577 A1 discloses a key module for a key of a keyboard with a backlit key button.

Against this background, the present invention creates an improved module cover for a key module for a key, an improved key module for a key, an improved key and an improved method for producing a key according to the main claims. Advantageous refinements result from the subclaims and the following description.

A module cover for a key module for a key can advantageously function both as a cover and as a light guide device or light guide. Thus, a functional combination of cover and light guide device or light guide can be realized in one component. Here, the cover or module cover can be or be shaped to guide light from a light source over a large area to a key button. According to one embodiment, this enables homogeneous illumination of the key button.

• eine Durchgangsöffnung für einen Durchtritt eines Tastenstößels der Taste;
• einen Lichteinkoppelbereich zum Einkoppeln von Licht einer Lichtquelle in den Moduldeckel;
• einen ersten Lichtausgabebereich zum Ausgeben eines ersten Anteil des Lichts und einen zweiten Lichtausgabebereich zum Ausgeben eines zweiten Anteils des Lichts aus dem Moduldeckel heraus, wobei der ersten Lichtausgabebereich und der zweite Lichtausgabebereich auf unterschiedlichen Seiten der Durchgangsöffnung angeordnet sind; und
• einen ersten Lichtlenkabschnitt und einen zweiten Lichtlenkabschnitt, die auf unterschiedlichen Seiten der Durchgangsöffnung angeordnet sind, wobei der erste Lichtlenkabschnitt ausgeformt ist, um einen ersten Anteil des Lichts zu dem ersten Lichtausgabebereich und einen zweiten Anteil des Lichts zu dem zweiten Lichtlenkabschnitt zu lenken, und wobei der zweite Lichtlenkabschnitt ausgeformt ist, um zumindest einen Teil des zweiten Anteil des Lichts zu dem zweiten Lichtausgabebereich zu lenken.

A corresponding module cover for a key module for a key has the following features:

• a through hole for a key tappet of the key to pass through;
• a light coupling area for coupling light from a light source into the module cover;
• a first light output region for outputting a first portion of the light and a second light output region for outputting a second portion of the light out of the module cover, the first light output region and the second light output region being arranged on different sides of the through opening; and
• a first light guiding section and a second light guiding section, which are arranged on different sides of the through opening, wherein the first light guiding section is shaped to direct a first portion of the light to the first light output area and a second portion of the light to the second light guiding portion, and wherein the second light directing portion is formed to direct at least part of the second portion of the light to the second light output region.

The approach described can be used in connection with a key module for a key. The key can have at least the key module, the light source and the at least partially translucent key button. The key module can have at least the module cover, a module base that can be coupled to the module cover, and the key tappet. In an assembled state of the key, at least the module cover of the key module can be arranged between the light source and the key button and the module cover can be arranged between the module base and the key button. When the key is actuated, the key plunger can be partially received in the key module so as to be movable relative to the module base and the module cover. The key button can be coupled to the key tappet.

According to embodiments of the present invention, lighting of the key button for a mechanical key or keyboard can advantageously be implemented and improved without additional parts. This applies to the case that a relative to a central vertical axis or actuation axis the button is offset, laterally or decentrally placed light source is provided. Complete or large-area, uniform and color-homogeneous illumination or illumination of the key button or at least translucent sections of the same can be made possible.

In contrast to an approach in which, for example, a transparent cover of a mechanical switch for keyboards with an integrated scatter lens throws light from the light source, which is arranged under the lens, upwards, according to embodiments of the approach described here, the light can be distributed over a large area on the key button . This means that the key button can be almost completely illuminated, the light being distributed over the key button rather than at certain points. For example, colors of the light source can also be mixed as homogeneously as possible. In contrast to the conventional approach of a pushbutton with a diffusing lens, where in particular the light source can be localized below the diffusing lens and the light can be guided out and scattered directly via the diffusing lens, according to embodiments of the present invention the light is distributed over a large area and uniformly over the key button. Thus, for example, a result can be avoided in which, for example, the light would only be poorly mixed in a third of the key button and basic colors of the light source would be partially visible individually. According to embodiments of the present invention, the basic colors can be mixed in such a way that the light on the key button appears homogeneous and white, for example.

The key can be part of a keyboard, such as a computer keyboard or the like. A keyboard can have at least one key, typically a plurality of keys. Backlighting of the key can be implemented using the module cover. The module base and the module cover of the key module can represent a base body of the key module when they are coupled to one another. In an assembled state of the key module, the key tappet can partially in a base body of the key module formed by the module base and the module cover along an axis of longitudinal extent the key plunger be movably received. Here, the key tappet can extend through the through opening in the module cover. Thus, the key tappet can have a portion that protrudes variably from the module cover depending on a movement or actuation of the same. The key module can be attached to a support element of a key or keyboard on a base section. When the key module is joined or installed, the module cover can be arranged between the module base and a key top or key button coupled to the key tappet. The key button can represent a part of the key that is visible to an operator and can be operated by depressing it. The key button can be made translucent in at least one symbol section. The light source can be designed as a light-emitting diode or light-emitting diode. The light source can be a color-changeable light source. The color-changeable light source can preferably be an RGB light-emitting diode or RGB-LED or red-yellow-blue light-emitting diode. The light source can also be a surface-mounted light source or SMD light source (SMD, surface-mounted device). In this case, the light source can be fastened or arranged on a circuit board or the like. The first light guide section can be arranged optically between the light source and the second light guide section. The first light directing section can be designed to direct the first portion of the light in a first beam path to the first light output area and in the second portion of the light in a second beam path within the module cover to the first light output area. The first light-directing section can be designed to at least partially reflect light from the light source and additionally or alternatively to at least partially let it through or couple it out. The first light guide section can be designed to guide the second portion of the light directly or indirectly, for example via at least one further light guide section, to the second light guide section. The first and the second light output region can be arranged on opposite or on mutually adjacent sides of the through opening. Likewise, the first and the second light-directing section can be arranged on mutually opposite or on mutually adjacent sides of the through opening.

According to one embodiment, the first light-directing section can be formed on a first side wall section of the module cover. The second light guide section can be formed on a second side wall section of the module cover. Here, the first side wall section and the second side wall section can be arranged on different sides of the through opening, for example at an angle or directly opposite one another. The module cover can have four side wall sections if the module cover is, for example, cuboid. Such an embodiment offers the advantage that a comprehensive and large-area illumination of the key button can be realized from at least two sides.

Here, the first light-directing section can have a plurality of light-directing surfaces. Each light-directing surface can have an extension plane which is inclined relative to a wall plane of the first side wall section. The second light-directing section can have an extension plane which is inclined relative to a wall plane of the second side wall section. Planes of extension of different light-directing surfaces can be identical, at least in pairs, and additionally or alternatively be oriented differently. Such an embodiment offers the advantage that a division of the light from the light source into the first beam path and the second beam path can be achieved simply and reliably by means of the first light-directing section.

The first light-guiding section can have at least one reflective light-guiding surface. Such a light-guiding surface is suitable for guiding part of the light within the module cover with as little loss as possible. Furthermore, the first light-guiding section can have at least one light-permeable light-guiding surface. Such a light guide surface is suitable as a light output area. According to one embodiment, at least one light-directing surface is partially reflective or partially transparent. Such a light-directing surface is suitable for decoupling part of the light from the module cover and guiding a further part of the light on within the module cover.

Furthermore, the module cover can have at least one further light-directing section. The first light-directing section, the second light-directing section and the at least one further light-directing section can be arranged on different sides of the through opening. In this case, the first light-directing section can be shaped in order to direct the second portion of the light to the at least one further light-directing section. The at least one further light-directing section can be shaped in order to direct at least part of the second portion of the light to the second light-directing section and additionally or alternatively to at least one further light output area of the module cover. The at least one further light guide section can be arranged optically in a second beam path between the first light guide section and the second light guide section. Such an embodiment offers the advantage that the second portion of the light can be more easily guided around the through opening of the module cover. As an option, a homogeneous and extensive illumination of the key button from several sides can also be made possible.

The at least one further light-directing section can have a first further light-directing section and a second further light-directing section. The first further light-directing section can be formed on a third side wall section of the module cover. The second further light directing section can be formed on a fourth side wall section of the module cover. Here, the third side wall section and the fourth side wall section can be arranged opposite one another. Such an embodiment offers the advantage that light from the light source can be reliably deflected or reflected on two separate optical paths within the module cover from the first light guide section to the second light guide section in order to provide a uniform and large-area illumination of the key top from, for example, two or four sides to reach. The second portion of the light can thus be guided around the recess in the module cover on both sides.

The module cover can be formed in one piece. Additionally or alternatively, the module cover can be formed from a transparent plastic material. Such an embodiment offers the advantage that a number of individual parts of the key module can be kept low. A homogeneous illumination of the key button can be further improved. For example, the module cover can be manufactured as a one-piece injection-molded part.

• eine Ausführungsform des vorstehend genannten Moduldeckels;
• den Modulsockel, wobei der Modulsockel und der Moduldeckel miteinander koppelbar oder gekoppelt sind; und
• den Tastenstößel, wobei der Tastenstößel bei einer Betätigung der Taste relativ zu dem Modulsockel und dem Moduldeckel bewegbar partiell in dem Tastenmodul aufnehmbar oder aufgenommen ist.

A key module for a key is also presented, the key having at least the key module, a light source and an at least partially translucent key button, the key module having at least the following features:

• an embodiment of the aforementioned module cover;
• the module base, wherein the module base and the module cover can be or are coupled to one another; and
• the key tappet, wherein the key tappet can be partially received or received in the key module in a movable manner relative to the module base and the module cover when the key is actuated.

In connection with the key module, an embodiment of the above-mentioned module cover can advantageously be used or used to direct the key module's light from a light source to a key top which can be coupled in order to enable the key top to be illuminated.

According to one embodiment, the key tappet can be made translucent for light from the light source. Here, the module base and additionally or alternatively the module cover can be designed to be translucent for light from the light source, at least in a section leading to the key plunger. Such an embodiment offers the advantage that uniform and large-area illumination of the key button can be achieved.

• eine Ausführungsform des vorstehend genannten Tastenmoduls;
• die Lichtquelle; und
• den mindestens abschnittsweise transluzenten Tastenknopf, wobei das Tastenmodul zwischen der Lichtquelle und dem Tastenknopf anordenbar oder angeordnet ist.

A key is also presented, the key having at least the following features:

• an embodiment of the aforementioned key module;
• the light source; and
• the at least partially translucent key button, wherein the key module can be or is arranged between the light source and the key button.

In connection with the key, an embodiment of the aforementioned key module can advantageously be used or used to enable the key button to be illuminated.

According to one embodiment, the light source can be arranged adjacent to the module base of the key module, on the key module or at least partially within the key module. The module base can have a light passage section for passing light from the light source to the module cover and, additionally or alternatively, a passage opening for receiving the light source. Such an embodiment offers the advantage that space and installation space can be saved.

Furthermore, in an assembled state of the key, the light source and the first light guide section of the module cover can be arranged along a straight line which extends parallel to a longitudinal axis of extension of the key tappet of the key module and can be spaced from the longitudinal extension axis. In particular, an axis of longitudinal extent of the key plunger running through a center point or center point region of the key module can be arranged at a distance from an installation location of the light source. An installation area of the light source can also be spaced apart from an installation area of the key tappet with respect to a viewing direction along the longitudinal extension axis of the key tappet. Such an embodiment offers the advantage that the key tappet does not interfere with the illumination of the key top, since the light source can be or is arranged at a distance from the key tappet.

• Bereitstellen einer Ausführungsform des vorstehend genannten Moduldeckels;
• Anordnen des Tastenmoduls und der Lichtquelle, sodass der Moduldeckel des Tastenmoduls benachbart zu der Lichtquelle angeordnet ist; und
• Ankoppeln des Tastenknopfs an den Tastenstößel, sodass der Moduldeckel zwischen der Lichtquelle und dem Tastenknopf angeordnet ist.

A method for producing a button is also presented, the method having at least the following steps:

• Providing an embodiment of the aforementioned module cover;
• Arranging the key module and the light source so that the module cover of the key module is arranged adjacent to the light source; and
• Coupling the key button to the key tappet so that the module cover is arranged between the light source and the key button.

By carrying out the method, an embodiment of the above-mentioned key can advantageously be manufactured.

Fig. 1

eine schematische Darstellung einer Taste gemäß einem Ausführungsbeispiel der vorliegenden Erfindung;

Fig. 2

eine perspektivische Darstellung eines Moduldeckels gemäß einem Ausführungsbeispiel der vorliegenden Erfindung;

Fig. 3

eine perspektivische Darstellung eines Moduldeckels gemäß einem Ausführungsbeispiel der vorliegenden Erfindung; und

Fig. 4

ein Ablaufdiagramm eines Verfahrens zum Herstellen gemäß einem Ausführungsbeispiel der vorliegenden Erfindung.

The invention is explained in more detail by way of example with reference to the accompanying drawings. Show it:

Fig. 1

a schematic representation of a key according to an embodiment of the present invention;

Fig. 2

a perspective view of a module cover according to an embodiment of the present invention;

Fig. 3

a perspective view of a module cover according to an embodiment of the present invention; and

Fig. 4

a flow chart of a method for manufacturing according to an embodiment of the present invention.

In the following description of preferred exemplary embodiments of the present invention, identical or similar reference symbols are used for the elements shown in the various figures and having a similar effect, a repeated description of these elements being dispensed with.

Fig. 1 shows a schematic representation of a button 100 according to an embodiment of the present invention. The button 100 can also be used as a mechanical button. For example, the key 100 is designed to be used as a single key or in combination with at least other keys on a keyboard. A keyboard which can have the key 100 is, for example, a computer keyboard.

According to the in Fig. 1 The illustrated embodiment of the present invention, the key 100 has a light source 110, a key module 120 and a key button 160. The key module 120 is arranged between the light source 110 and the key button 160. The key button 160 is designed or shaped to be translucent at least in sections. By means of the light source 110, the key button 160 can be illuminated, illuminated or backlit through the key module 120 and / or using the key module 120.

The key module 120 is shown in FIG Fig. 1 a module base 130, a module cover 140 and a key plunger 150 are shown. The module base 130 and the module cover 140 are mechanically coupled to one another. When the button 100 is actuated, the key plunger 150 is arranged to be movable relative to the module base 130 and the module cover 140. The key tappet 150 is partially received in the key module 120. In a non-actuated state of the button 100, a larger section of the button plunger 150 protrudes from the module cover 140 than in an actuated state of the button 100.

The module cover 140 has a light coupling region 141, via which light emitted by the light source 110 can be coupled into the module cover 140. The module cover 140 has, for example, at least a first light guide section 142 and a second light guide section 146. The first light-directing section 142 is shaped to have a first portion of the light coupled in via the light coupling-in area 141 in a first beam path via a first light output area 144 of the module cover 140 to the key button 160 and a second portion of the coupled-in light in a second beam path to the second light-directing section 146 to direct. For this purpose, the first light-guiding section 142 can have one or more light-guiding surfaces. The second light directing section 146 is shaped to at least part of that of the first Light directing section 142 to direct the received portion of the coupled light via a second light output area 148 of the module cover 140 to the key button 160. For this purpose, the second light-guiding section 146 can have one or more light-guiding surfaces. Thus, light from the light source 110 travels on the one hand via the first light directing section 142 and the first light output area 144 to the key top 160 and on the other hand via the first light directing section 142, the second light directing section 146 and the second light output area 148 to the key top 160. The module cover 146 can also have more than the aforementioned two light output regions 144, 148, which are arranged, for example, distributed over an upper side and optionally one or more side surfaces of the module cover 146.

According to one exemplary embodiment, the module cover 140 is formed in one piece. Additionally or alternatively, the module cover 140 is molded from a transparent plastic material.

According to one embodiment, the light guide sections 142, 146 are formed by wall regions of an outer wall of the module cover 140. Each light-directing section 142, 146 can have one or more light-directing surfaces. Different light-directing surfaces of a light-directing section 142, 146 can have different inclinations to one another. According to one exemplary embodiment, a light-guiding surface is shaped as a flat surface. A light-directing surface is, for example, triangular, square, polygonal, round or oval in shape. According to one exemplary embodiment, a light-guiding surface is surrounded by a circumferential edge. According to an exemplary embodiment, a light-guiding surface is aligned at a suitable angle to a direction of propagation of the light impinging on the light-guiding surface. The angle is selected so that the incident light is either deflected to a further light-directing surface of the same light-directing section 142, or to a further light-directing section 146, or is directed to a light output region 144, 148. According to one embodiment, an outer surface of a light-directing surface represents a light output region 144, 148. In this case, the light-directing surface is permeable or at least partially permeable for the Light-directing surface running light. Such a light-guiding surface is also referred to below as a guide surface. A light-guiding surface provided for deflecting the incident light to a further light-guiding section 146 is designed to be reflective or at least partially reflective. Such a light-guiding surface is also referred to below as a reflection surface. According to an exemplary embodiment, such a light-directing surface is designed to effect a change in direction of an incident light beam between 45 ° and 135 °. In this way, a light beam, the main component of which is aligned parallel to an axis of longitudinal extent of the module cover 140, can be deflected so that the light beam after reflection is aligned essentially transversely to the axis of longitudinal extent, i.e. the main component of the light beam after reflection is perpendicular to the Is aligned longitudinal axis of the module cover 140, or vice versa.

The light coupling area 141 and the light output areas 144, 148 are arranged on different sides of the module cover 140, according to one embodiment on opposite sides of the module cover 140. According to the exemplary embodiment shown, the light coupling area 141 is formed on an underside and the light output areas 144, 148 are formed on an upper side of the module cover 140.

The light source 110 is, for example, a light-emitting diode or light-emitting diode, in particular an RGB light-emitting diode or RGB-LED or red-yellow-blue light-emitting diode and / or a surface mounting light source or SMD light source (SMD, surface -mounted device). The light source 110 is according to the in Fig. 1 The illustrated embodiment of the present invention is arranged adjacent to the module base 130 of the key module 120 or on the key module 120. According to another exemplary embodiment, the light source 110 can be arranged at least partially within the key module 120, in particular in the area of the module base 130. In an assembled state of the key 100, the light source 110 and the first light guide section 142 of the module cover 140 are arranged along a straight line that extends parallel to one The longitudinal axis of extension of the key plunger 150 of the key module 120 extends and is spaced from the longitudinal axis.

According to one exemplary embodiment, the key tappet 150 is designed to be translucent for light from the light source 110. In this case, the module base 130 and / or the module cover 140 can be designed to be translucent for light from the light source 110, at least in a section leading to the key tappet 150.

Fig. 2 shows a perspective illustration of a module cover 140 according to an embodiment of the present invention. The module cover 140 corresponds to or is similar to the module cover Fig. 1 . Module cover 140 is shown in FIG Fig. 2 the first light directing section 142, the second light directing section 146, a first side wall section 242, a through opening 152, a plurality of light directing surfaces 272, 274, a third light directing section 282, a third side wall section 284 and a fourth light directing section 286 are shown. An outer shape, an outline or a silhouette of the module cover 140 represents a cuboid-like shape and / or a shape similar to a truncated pyramid.

The through-opening 152 is shaped in order to accommodate a cross-sectional profile of the key tappet of the key module or to enable the key tappet of the key module to pass through. The key plunger protrudes through the through opening 152 from the key module. The through opening 152 of the module cover 140 is arranged between the first light guide section 142 and the second light guide section 146 or between the first light output area and the second light output area. The second light guiding section 146 is concealed here due to the illustration and is shown in FIG Fig. 2 only indicated implicitly.

The first light directing section 142 is formed on the first side wall section 242 of the module cover 140. The second light-directing section 146 is formed on a second side wall section of the module cover 140 which faces away from the first side wall section 242 or is arranged opposite the first side wall section 242.

Furthermore, according to the exemplary embodiment shown here, the module cover 140 has the third light guiding section 282 and the fourth light guiding section 286 as further light guiding sections. The third light guide section 282 is formed on the third side wall section 284 of the module cover 140. Furthermore, the fourth light-directing section 286 is formed on a fourth side wall section of the module cover which faces away from the third side wall section 284 or is arranged opposite the third side wall section 284. Due to the presentation, in Fig. 2 only the third light guide section 282 is shown explicitly.

According to the exemplary embodiment of the invention shown here, the third light-directing section 282 has a plurality of light-directing surfaces which are shifted in parallel in a stepped manner, the planes of which are aligned along a wall plane of the third side wall section 284. According to this exemplary embodiment, the step-shaped, parallel shifted light-directing surfaces form an extension which is arranged centrally in the third side wall section 284 and which protrudes from adjacent wall areas of the third side wall section 284.

Even if the fourth light directing section 286 in Fig. 2 Is covered due to the representation and only shown implicitly, the fourth light-guiding section 286 is shaped according to an exemplary embodiment corresponding to the third light-guiding section 282.

The first light-guiding section 142 has the plurality of light-guiding surfaces 272, 274. In this case, each of the light-directing surfaces 272, 274 has a plane of extent that is inclined relative to a wall plane of the first side wall section 242. The first light-directing section 142 has a folded structure due to the differently inclined planes of extension of the plurality of light-directing surfaces 272, 274. According to the exemplary embodiment illustrated here, all planes of extent of the plurality of light-directing surfaces 272, 274 are inclined differently relative to the wall plane of the first side wall section 242.

According to the exemplary embodiment shown here, the plurality of light-directing surfaces 272, 274 have, merely by way of example, two first light-directing surfaces 272 as reflection surfaces, only by way of example three second light-directing surfaces 274 as guide surfaces. The first light-directing surfaces 272 are, for example, rectangular in shape. The first light-directing surfaces 272 are formed in order to direct light from the light source via the third light-directing section 282 and the fourth light-directing section 286 to the second light-directing section 146. In this way, some of the light within the module cover 140 is guided around the recess 152. The second light-directing surfaces 274 are arranged between the first light-directing surfaces 272. By way of example, two square second light-guiding surfaces 274 directly adjoin the first light-guiding surfaces 272. The two square-shaped second light-directing surfaces 274 also directly adjoin a triangular-shaped second light-directing surface 274, which is arranged between the two square-shaped second light-directing surfaces 274. The second light directing surfaces 274 are shaped in order to direct light from the light source via a first light output region 144 of the module cover 140 to the key button.

The third light directing section 282 and the fourth light directing section 284 are shaped in order to direct light from the first light directing section 142 to the second light directing section 146. According to one exemplary embodiment, the third light directing section 282 and the fourth light directing section 284 can additionally or alternatively be formed in order to direct light from the first light directing section 142 to at least one further light output area towards the key button.

According to one embodiment, the light-directing surfaces 272 and the light-directing surfaces of the third light-directing section 282 and the fourth light-directing section 286 are designed as reflection surfaces, through which the light striking the respective light-directing surfaces is completely or at least largely reflected and thus remains within the material of the module cover 140. The light-directing surfaces 274, on the other hand, are designed as guide surfaces, through which the light striking the respective light-directing surfaces 274 is completely or at least largely guided out of the material of the module cover 140. The According to this exemplary embodiment, light directing surfaces 274 function as the first light output region 144.

According to one exemplary embodiment, the light-directing surface or the light-directing surfaces of the second light-directing section 146 are again designed to be reflective in order to direct the incident light to the separately formed second light output region 148.

Fig. 3 shows a perspective illustration of a module cover 140 according to an embodiment of the present invention. The module cover 140 corresponds to or is similar to the module cover Fig. 1 . According to one embodiment, it is a further view of the module cover Fig. 2 . In the representation of Fig. 3 the second light directing section 146 and the second side wall section 346 are shown explicitly. The second light-directing section 146 has an extension plane that is inclined relative to a wall plane of the second side wall section 346. The second light guiding section 146 extends, for example, over at least two thirds of a length of the second side wall section 346.

With reference to the above-mentioned and described figures, exemplary embodiments and advantages of exemplary embodiments are again summarized and / or briefly presented in other words.

The module cover 140 or light guide cover 140 is formed from a transparent plastic according to an exemplary embodiment and functions as a cover and light guide in one. Starting from the light source 110, part of the light is thrown through the second light-guiding surfaces 274, which function as guide surfaces, in the direction of the key button 160, while another part of the light is thrown through the first light-guide surfaces 272, which function as reflection surfaces, within the module cover 140 via the further light-guide sections 282 and 286 is passed around the module cover 140 and is thrown at the second light-guiding section 146, which functions as a rear reflective surface, in the direction of the key button 160. The first light directing portion 142 is formed to be direct the light both in the direction of the key top 160 and to the reflective surfaces of the other light directing sections 146, 182 and 186.

In this way, improved illumination of the key top 160 can advantageously be achieved. Improved illumination means an improved distribution of the light over the entire key button 160, a flat or large-area light distribution and an improved mixing of RGB colors. Another advantage is that no additional components are required. As a result, there are no additional parts costs and no additional assembly is required.

In the case of the light guide cover 140, the light is guided through specifically placed and inclined light guide sections 142, 146, 182, 186 on the light guide cover 140 from the side of the first light guide section 142 to the side of the second light guide section 146 and there also directed to the key button 160. As a result, the key top 160 of such a key 100 can be illuminated over a large area or completely. In addition, the primary colors red, yellow and blue, for example, are mixed homogeneously so that the light directed to the key button 160 appears white.

Fig. 4 FIG. 4 shows a flow chart of a method 400 for producing a key according to an exemplary embodiment of the present invention. By executing method 400, the key is off Fig. 1 or a similar key can be produced. At least the method 400 for producing has a step 410 of providing, a step 420 of assembling, a step 430 of arranging and a step 440 of coupling.

In step 410 of providing, the module cover from one of the above-mentioned figures or a similar module cover is provided, for example in the form of a one-piece injection-molded part. Subsequently, in step 420 of assembling the key tappet, the module cover and the module base are assembled in order to join the key module or to couple the module cover and the module base and the key tappet at one Actuation of the key relative to the module base and the module cover movably partially received in the key module. In step 430 of arranging, the key module and the light source are arranged relative to one another in such a way that at least the module cover of the key module is arranged between the light source and the key button which is already or subsequently coupled. In the coupling step 440, the key button is coupled to the key tappet or mechanically coupled to the key tappet.

Reference number

100

button

110

Light source

120

Button module

130

Module base

140

Module cover

141

Light coupling area

142

first light guide section

144

first light output area

146

second light guide section

148

second light output area

150

Key tappet

152

Through opening

160

Key button or key top

242

first sidewall section

272

first light control surfaces

274

second light control surfaces

282

third light directing section

284

third side wall section

286

fourth light directing section

346

second side wall section

400

Method of manufacture

410

Step of deployment

420

Step of assembling

430

Step of arranging

440

Step of coupling

Claims (13)

1. Module cover (140) for a key module (120) for a key (100), wherein the module cover (140) comprises:

   a through-hole (152) for a passage of a key tappet (150) of the key (100);

   a light injection region (141) for injecting light from a light source (110) into the module cover (140);

   a first light output region (144) for outputting a first portion of the light;

   characterized by

   a second light output region (148) for outputting a second portion of the light out of the module cover (140), wherein the first light output region (144) and the second light output region (148) are arranged on different sides of the through-hole (152); and

   a first light directing portion (142) and a second light directing portion (146), which are arranged on different sides of the through-hole (152), wherein the first light directing portion (142) is formed to direct a first portion of the light to the first light output region (144) and a second portion of the light to the second light directing portion (146), and wherein the second light directing portion (146) is formed to direct at least part of the second portion of the light to the second light output region (148).
2. Module cover (140) according to claim 1, wherein the first light directing portion (142) is formed on a first sidewall portion (242) of the module cover (140) and the second light directing portion (146) is formed on the second sidewall portion (346) of the module cover (140), wherein the first sidewall portion (242) and the second sidewall portion (346) are arranged on different sides of the through-hole (152).
3. Module cover (140) according to claim 2, wherein the first light directing portion (142) comprises a plurality of light directing surfaces (272, 274), wherein each light directing surface (272, 274) has a plane of extension inclined relative to a wall plane of the first sidewall portion (242), and wherein the second light directing portion (146) has a plane of extension inclined relative to a wall plane of the second sidewall portion (346).
4. Module cover (140) according to one of the preceding claims, wherein the first light directing portion (142) comprises at least one reflecting light directing surface (272) and at least one translucent light directing surface (274).
5. Module cover (140) according to one of the preceding claims, comprising at least one further light directing portion (282, 286), wherein the first light directing portion (142), the second light directing portion (146) and the at least one further light directing portion (282, 286) are arranged on different sides of the through-hole (152), wherein the first light directing portion (142) is formed to direct the second portion of the light to the at least one further light directing portion (282, 286), and wherein the at least one further light directing portion (282, 286) is formed to direct at least part of the second portion of the light to the second light directing portion (146) and/or to at least one further light output region of the module cover (140).
6. Module cover (140) according to claim 5, comprising a first further light directing portion (282) and a second further light directing portion (286), wherein the first further light directing portion (282) is formed on a third sidewall portion (284) of the module cover (140) and the second further light directing portion (286) is formed on a fourth sidewall portion of the module cover (140), wherein the third sidewall portion (284) and the fourth sidewall portion are arranged opposite to each other.
7. Module cover (140) according to one of the preceding claims, which is integrally formed and/or formed of transparent plastics material.
8. Key module (120) for a key (100), wherein the key (100) comprises at least the key module (120), a light source (110) and a keycap (1610) translucent at least in sections, characterized in that the key module (120) at least comprises:

   the module cover (140) according to one of the preceding claims;

   a module base (130), wherein the module base (130) and the module cover (140) are coupleable or coupled to each other; and

   the key tappet (150), wherein the key tappet (150) is partially accommodatable or accommodated in the key module 120 so as to be movable relative to the module base (130) and the module cover (140) when the key (100) is being actuated.
9. Key module (120) according to claim 8, wherein the key tappet (150) is translucent for light from the light source (110), wherein the module base (130) and/or the module cover (140) is or are translucent for light from the light source (110) at least in a subsection leading to the key tappet (150).
10. Key (100), comprising:

    the key module (120) according to one of claims 8 to 9;

    the light source (110); and

    the keycap (160) translucent at least in sections, wherein the key module (120) is arrangeable or arranged between the light source (110) and the keycap (160).
11. Key (100) according to claim 10, wherein the light source (110) is arranged adjacent to the module base (130) of the key module (120), on the key module (120) or at least partially inside the key module (120).
12. Key (100) according to one of claims 10 to 11, characterized in that in an assembled state of the key (100) the light source (110) and the first light directing portion (142) of the module cover (140) are arranged along a straight line extending in parallel with a longitudinal axis of extension of the key tappet (150) of the key module (120) and being spaced from the longitudinal axis of extension.
13. Method (400) for manufacturing a key (100), wherein the method (400) at least comprises the steps of:

    providing (410) a module cover (140) according to one of claims 1 to 7;

    assembling (420) a key tappet (150), the module cover (140) and a module base (130) to form a key module (120);

    arranging (430) the key module (120) and the light source (110) so that the module cover (140) of the key module (120) is adjacent to the light source (110); and

    coupling (440) the keycap (160) to the key tappet (150) so that the module cover (140) is arranged between the light source (110) and the keycap (160).

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