Patent Description:
Such longitudinal luminaires are well known in the prior art. Usually, the plurality of optical elements are individually provided and positioned/aligned with respect to a corresponding LED of a light source, respectively, to allow for a desired light output characteristic.

The plurality of optical elements can also be gathered together in optical groups, which are then fixed to the track profile. For instance by means of screws being screwed through the optical group and a PCB of the light source, these elements can be aligned to each other. This, however, requires a cumbersome positioning of these elements and increased mounting efforts for the luminaire. Also, the so stiffly fixed light sources might be prone to mechanical defects due to thermal heat expansion.

<CIT> relates to a lamp with a mounting rail that defines a contact surface for a circuit board, a circuit board that rests on the contact surface and carries a plurality of LEDs as the light source of the lamp on a side opposite the contact surface, a reflective and a transparent optical component, which affect light radiation emitted by the LEDs, and at least one positioning element, the positioning element being set up to simultaneously position the circuit board, the reflective optical component and the transparent optical component on the mounting rail against one another and to hold them mechanically.

It is thus an object of the present invention to provide a longitudinal luminaire of the type described herein above, which allows for an easy mounting and alignment of the corresponding optical features.

The object is achieved by the subject-matter of the independent claim. The dependent claims study further the central idea of the present invention.

According to an aspect, the present invention is directed to a longitudinal luminaire extending along a longitudinal axis. The luminaire comprises a longitudinal track profile delimiting an interior space. The track profile comprises a longitudinal opening to access the interior space. The luminaire further comprises a longitudinal light source being provided in the interior space and extending in parallel to the longitudinal axis. The light source comprises a longitudinal PCB (Printed Circuit Board) being equipped with a plurality of LEDs (Light Emitting Diodes) arranged in a row. The luminaire further comprises a plurality of optical elements being integrally formed (i.e. in one piece) as an optical group and arranged in a row corresponding to the LEDs so that each of the optical elements can be functionally positioned to at least one of the LEDs when the optical group is attached to the track profile so that the optical elements can optically influence light emitted from the associated LEDs. The luminaire further comprises an attachment clip. The attachment clip comprises a first attachment section, a first fixing section and a first alignment section. The first attachment section can be or is attached to a corresponding second attachment section of the track profile for holding the attachment clip at the track profile at least in a direction orthogonal to the longitudinal axis; preferably in a vertical direction, i.e. in a direction towards the longitudinal opening. The first fixing section relatively fixes the light source via a corresponding second fixing section of the light source with respect to the attachment clip. The first alignment section aligns the attachment clip relative to the optical group via a corresponding second alignment section of the optical group so that each of the optical elements is functionally positioned to the associated LEDs.

With the longitudinal luminaire according to the present invention, mounting of the optical features, i.e. the light source with the LEDs on the one hand and the associated optical elements on the other hand, can be facilitated as they can be easily attached to the track profile by the attachment clip as a kind of attachment adapter. Moreover, due to the alignment function of the attachment clip to the optical elements or optical group on the one hand and the secure fixing of the clip with respect to the light source on the other hand, alignment of the light source with respect to the optical group so that each of the optical elements can be functionally positioned with respect to the associated LEDs can be easily and automatically obtained; preferably at least along the longitudinal axis direction but also in any other possible direction, if required.

The attachment clip can have a substantially U-shaped layout with two opposite side arms being connected by a connection section and delimiting a receiving space for longitudinally passing through and thus receiving the light source. The clip thus securely surrounds the light source so that it cannot slip laterally out of the attachment clip during mounting. Moreover, in association with the track profile, the attachment clip can easily and securely receive and hold the light source to and preferable against the track profile.

The connection section can be bulged towards the receiving space. Thus, a secure contact of the attachment clip with the light source and thus further a secure attachment of the light source to the track profile can be obtained. Thus, a flat contact between the track profile and the light source can be obtained, which may further result in a positive effect on the heat transfer from the light source to the track profile during operation of the luminaire.

The side arms may comprise the first attachment section, respectively. The first attachment section can preferably be provided at a distal end of the respective side arm with respect to the connection section and thus protrude towards the track profile to allow for an easy attachment of the first and second attachment section.

The connection section may comprise the first fixing section preferably at a side facing the receiving space. Hence, a secure connection of the first and second fixing sections can be obtained. Moreover, in connection with the bulged layout of the connection section, a light and secure connection of the first and second fixing sections can be ensured.

The connection section may comprise the first alignment section preferable at a side opposite to the receiving space. Hence, the first alignment section is positioned such that it can protrude directly towards the optical group and thus allows for an easy layout and secure connection of the first and second alignment sections.

Attachment of the attachment clip to the track profile is preferably obtained by form fit and/or frictional connection between the first and second attachment section. In a same manner, also fixing of the light source to the attachment clip is preferably obtained by form fit and/ or frictional connection of the first and second fixing section. In the same manner, also alignment of the optical group to the attachment clip is preferably obtained by form fit and/ or frictional connection of the first and second alignment section. Hence, the connection can be flexibly designed according to the required needs to ensure a secure connection between the corresponding connection partners.

The first attachment section may comprise a clamping section, like a clamping spring and/or a locking section, like a snap connection element, and/or a latching section, like a tooth-like or a sawtooth-like structure. The second attachment section then may comprise a corresponding layout to obtain the attachment of the attachment clip to the track profile, like a recess, a longitudinal grove, a corresponding snap connection element, and/ or a latching structure. These structural elements thus allow for a secure attachment according to the required needs. For instance, a clamping section may allow for an easy attachment due to simple straight insertion of the cooperating partners. A snap connection element may allow for a secure attachment including form fit. A latching section may allow for attachment at different insertion positions. Therefore, the receiving space between the attachment clamp and the corresponding track profile section can be varied in size/distance, to thus allow the insertion of PCBs having a different thickness, which further increases the flexibility of the luminaire.

The first fixing section may comprise a protrusion or a recess, preferable a pin-like protrusion. The second fixing section may then comprise a corresponding layout to obtain the fixing of the light source to the attachment clip, like a recess or a protrusion, preferably a recess or a through hole in the PCB. Preferably, the corresponding cooperating partners for the fixing have the same cross section and dimension and thus allow for a tight fixing and fitment at least in a direction along the longitudinal axis.

The first alignment section may comprise a protrusion with at least two first surface sections being distant from each other along the longitudinal axis (and preferably facing at least partially towards the longitudinal axis direction). The second alignment section may then comprise at least two second surface sections being distant from each other along the longitudinal axis as well (and preferably facing at least partially towards the longitudinal axis direction). Each of the first surface sections are then preferably in abutment with one of the second surface sections, respectively, for alignment of the optical group to the attachment clip, preferably at least with respect to a longitudinal axis direction. Hence, an easy layout can be provided with which an easy and automatic alignment of the cooperating elements can be obtained, thus further facilitating the assembly of the luminaire.

The second surface sections can be part of an outer and preferably rear contour of the optical group preferably facing a space between two neighboring optical elements of the optical group. Hence, the alignment sections are positioned between optical paths through the optical group, i.e. through the optical elements, and do thus not hinder the optical light output.

The track profile preferable comprises a U-shaped cross-section when viewed in the longitudinal axis direction. The track profile thus has two opposite side walls laterally delimiting the longitudinal opening and being connected by a rear wall for delimiting the interior space. Hence, an easy layout of the track profile can be provided which can also be manufactured in an easy manner, e.g. by extrusion molding or strand casting.

The rear wall may comprise the second attachment section at a side facing the interior space. Hence, the attachment of the clip and thus the light source can be done at a side opposite to the longitudinal opening and thus at a preferred position for an efficient light output. Also, the second attachment section is thus provided at an easily accessible position.

The optical group comprises a first holding section, preferably an elastically deformable side wall protrusion. The side wall protrusion can extend longitudinally in parallel to the longitudinal axis and thus be a longitudinal side wall protrusion. The track profile, preferably the opposite side walls and further preferred at a side facing the interior space, comprises a second holding section for mechanically cooperating with the first holding section to attach the optical group to the track profile. Hence, a structure for an easy attachment of the optical group to the track profile can be provided. Due to the preferably elastically deformable characteristics of the corresponding first holding section, the optical group can be, for instance, simply snapped on the track profile for attachment thereof. The track profile may comprise a (longitudinal) protruding section protruding towards the interior space, which forms a stop for the optical group when being inserted into the track profile in an insertion direction preferably being or extending orthogonal to the longitudinal axis and to the longitudinal opening.

The second attachment section and preferably also the second holding section and also preferred the stop, if present, can be made by a longitudinal profile structure of the track profile. Of course, all other parts of the track profile can also be made by a longitudinal profile structure of the track profile in the same manner. Hence, any desired positioning of the respective features along the longitudinal axis is possible. Also, the light source can be carried in a floated manner along the longitudinal axis to absorb, for instance, thermal expansion of the light source or any other components of the luminaire. Due to the provision of the attachment clip, even during thermal expansion the relative positioning and thus alignment between the light source and the optical group can be maintained.

The optical elements can be lenses and/or reflectors or any other type of optical element, respectively. The optical group or its optical elements may cover and preferably close at least part of the longitudinal opening. Hence, the flexibility of the luminaire can be even further increased. Due to the optical group covering the longitudinal opening, the light emission of the luminaire can be optimized and light output be increased in efficiency.

A plurality of the light sources and/ or a plurality of the optical groups can be provided in the track profile, preferably arranged in a row in parallel to the longitudinal axis. Hence, the longitudinal luminaire can be provided in any desired lengths while using standard components, e.g. for the light source or the optical group.

Each of the light sources can functionally cooperate with at least two of the attachment clips to thus increase the stability of the connection and alignment; dependent on the length and dimension of the light source. At least one and preferably at least two of the attachment clips can functionally cooperate with one optical group for alignment thereof with respect to the light source. Hence, alignment for all corresponding cooperating partners can be securely obtained.

The luminaire may further comprise a mounting element for mounting the longitudinal luminaire to a mounting surface, like a wall or a ceiling. The mounting element may preferably comprise a cord suspension, a mounting adapter, like a mounting bracket, and/or a longitudinal mounting profile. The latter preferably having a U-shaped cross-sectional layout with its opening facing downwards and into which any suspension or other fixing means can be easily inserted. Therefore, the mounting profile may comprise any desired and preferably longitudinally extending structure features to allow for an easy attachment and preferably also detachment of the luminaire components, as desired.

The luminaire may further comprise lighting electronics, like a driver or sensors, which are preferably attached to the track profile, preferably at an outer side of its rear wall or the mounting element, preferably its longitudinal mounting profile, if present. Hence, the luminaire can be directly equipped with any required electronic devices. If the lighting electronics are positioned at the mounting element, these electronics can be used for a plurality of such longitudinal luminaires, e.g. arranged in a row, to thus reduce the number of parts.

Further details and advantages of the present invention will now be described with reference to the embodiments shown in the drawings of the enclosed figures.

The figures show different embodiments and features of a longitudinal luminaire <NUM> according to the present invention. As best shown in <FIG>, the longitudinal luminaire <NUM> extends along a longitudinal axis L.

The luminaire <NUM> comprises a longitudinal track profile <NUM> delimiting an interior space <NUM>. The track profile <NUM> comprises a longitudinal opening <NUM> to access the interior space <NUM>. Preferably, the track profile <NUM> is made by extrusion molding and thus has the same cross section along its longitudinal axis L. The track profile <NUM> can be made of a metal material, like aluminum. However, the track profile <NUM> may also be made of another material, like plastic. If made of a plastic material, the track profile <NUM> can also be made by injection molding or the like. The longitudinal opening <NUM> may extend along the entire length of the longitudinal luminaire <NUM>, which thus has here one open side via which the interior space <NUM> can be accessed and easily equipped with features as further described in the following.

The luminaire <NUM> further comprises a longitudinal light source <NUM> being provided in the interior space <NUM> and extending in parallel to the longitudinal axis L. The light source comprises a longitudinal PCB <NUM> being equipped with a plurality of LEDs <NUM> arranged in a row (i.e. preferably in one or in a plurality of rows) as can be seen in <FIG> and <FIG>. The luminaire <NUM> as shown here comprises four of such longitudinal light sources <NUM>, while the present invention is not limited to any number of light sources <NUM>. The LEDs can be arranged as single LED or in groups at a defined location on the PCB, while being distant to neighboring LEDs or grouped LEDs in a row by a defined distant (i.e. pitch). For instance, the grouped LEDs can be RGB-LEDs or any other LED-cluster.

The luminaire <NUM> further comprises a plurality of optical elements <NUM> being integrally formed as an optical group <NUM> and arranged in a row (i.e. preferably in one or in a plurality of rows) corresponding to the LEDs <NUM> so that each of the optical elements <NUM> can be functionally positioned (i.e. in optical cooperation) to at least one of the LEDs <NUM> when the optical group <NUM> is attached to the track profile <NUM> so that the optical elements <NUM> can optically influence light emitted from the associated LEDs <NUM>. As shown, the luminaire <NUM> may comprise a plurality of such optical groups <NUM>; here six optical groups <NUM>. The number of optical groups <NUM> is not limited by the present invention. The optical elements <NUM> can be lenses and/or (as shown) reflectors, respectively. Of course, the optical elements <NUM> can also be any other type of optical element known in the art. As can be seen, for instance, in <FIG>, the optical group <NUM> or its optical elements <NUM> cover and preferably close at least part of the longitudinal opening <NUM>.

As mentioned, a plurality of the light sources <NUM> and/or a plurality of the optical groups <NUM> can be provided in the track profile <NUM>, preferably arranged in a row in parallel to the longitudinal axis L, as exemplarily shown in the embodiments of <FIG> and <FIG>.

The luminaire <NUM> further comprises an attachment clip <NUM> as can be best seen in <FIG> and also in <FIG> and <FIG>. The attachment clip <NUM> comprises a first attachment section <NUM> which can be attached to a corresponding second attachment section <NUM> of the track profile <NUM> for holding the attachment clip <NUM> at the track profile <NUM> at least in a direction orthogonal to the longitudinal axis L. The cooperating partners, i.e. the first attachment section <NUM> and the second attachment section <NUM>, can also be designed such that they allow for a holding (preferably a fixing) with respect to any other direction, e.g. also along the longitudinal direction L.

Attachment of the attachment clip <NUM> to the track profile <NUM> can be obtained by form fit and/or frictional connection between the first and second attachment sections <NUM>, <NUM>. For instance, the first attachment section <NUM> may comprise a clamping section <NUM>, like a clamping spring, as shown in the embodiments of <FIG>, in which the corresponding first attachment section <NUM> here has a kind of U-shape and thus allows for flexibility to allow for this first attachment section <NUM> be inserted in the second attachment section <NUM> here provided as a kind of recess or longitudinal groove <NUM>.

The first attachment section <NUM> can also be a locking section <NUM>, like a snap connection element. This is here shown in <FIG> by the distal end of the first attachment section <NUM> which is snapped on a corresponding snap connection element <NUM> of the track profile <NUM> here provided as a (longitudinal) protrusion, which forms a seat for the distal end <NUM> of the first attachment section <NUM> in a direction of gravity force to thus withhold the attachment clip <NUM> in position.

The first attachment section <NUM> may also comprise a latching section <NUM>, like a tooth-like (see <FIG>) or - as shown, for instance, in <FIG> - a sawtooth-like structure. The latching section <NUM> may allow for different attachment positions of the attachment clip <NUM> to the track profile <NUM> when being brought into engagement with a corresponding (longitudinal) latching structure <NUM> of the track profile <NUM>, so that the attachment clip <NUM> can be attached at different positions with respect to the track profile <NUM> thus increasing the flexibility of the attachment features.

The attachment clip <NUM> further comprises a first fixing section <NUM> for relatively fixing the light source <NUM> via a corresponding second fixing section <NUM> of the light source <NUM> with respect to the attachment clip <NUM>. The fixing of the light source <NUM> to the attachment clip <NUM> can preferably be obtained by form fit and/or frictional connection of the first and second fixing sections <NUM>, <NUM>.

Here, the first fixing section <NUM> may comprise a protrusion, preferably a pin-like protrusion. Then, the second fixing section <NUM> may comprise a corresponding layout to obtain the fixing of the light source <NUM> to the attachment clip <NUM>, preferably a recess or a through hole, in the PCB. Such through holes are usually provided at standard PCBs <NUM> for alignment or attachment reasons, which through holes can thus also be used as the second fixing sections <NUM>. Of course, the first fixing section <NUM> can, for instance, also be a recess or may have any other structure, and the second fixing section <NUM> may then be or comprise a corresponding structure, like a protrusion to extend into or received by the first fixing section <NUM>. The present invention is not limited to any type of first and second fixing sections <NUM>, <NUM> layout as long as the physical cooperation thereof allows for the required fixing between the light source <NUM> and the attachment clip <NUM> in the desired manner.

The attachment clip <NUM> further comprises a first alignment section <NUM> for alignment of the attachment clip <NUM> relative to the optical group <NUM> via a corresponding second alignment section <NUM> of the optical group <NUM> so that each of the optical elements <NUM> is functionally positioned to the associated LEDs <NUM>.

The alignment of the optical group <NUM> to the attachment clip <NUM> is preferable obtained by form fit and/or frictional connection of the first and second alignment sections <NUM>, <NUM>. As shown, the first alignment section <NUM> may comprise a protrusion with at least two first surface sections <NUM> being distant from each other in a direction of or in parallel to the longitudinal axis L. The second alignment section <NUM> then may comprise at least two second surface sections <NUM> also being distant from each other in a direction of or in parallel to the longitudinal axis L. Each of the first surface sections <NUM> is in abutment with one of the second surface sections <NUM>, respectively, for alignment of the optical group <NUM> to the attachment clip <NUM> when being assembled.

The second surface sections <NUM> can be part of an outer and preferably rear contour of the optical group <NUM> preferable facing (e.g. in the longitudinal direction L) towards a space <NUM> between two neighboring optical elements <NUM> of the optical group <NUM>, as exemplarily shown in <FIG>.

As shown, for instance, in <FIG>, the attachment clip <NUM> may have a substantially U-shaped layout with two opposite side arms <NUM> being connected by a connection section <NUM> and delimiting a receiving space <NUM> for longitudinally passing through and thus receiving the light source <NUM>.

As is clearly shown in <FIG>, <FIG> and <FIG>, the connection section <NUM> can be bulged towards the receiving space <NUM>; here towards the track profile <NUM> and preferably towards its rear wall <NUM>. Hence, a secure abutment of the light source <NUM> to the track profile <NUM> can be ensured, e.g. for a more efficient heat transfer from the light source <NUM> to the track profile <NUM> during operation.

The side arms <NUM> may comprise the first attachment section <NUM>, respectively, preferably at a distal end <NUM> thereof with respect to the connection section <NUM>. The connection section <NUM> may comprise the first fixing section <NUM> at a side <NUM> facing the receiving space <NUM>. The connection section <NUM> may comprise the first alignment section <NUM> at a side <NUM> opposite to the receiving space <NUM> or the side <NUM> facing the receiving space <NUM>.

The track profile <NUM> preferably comprises a U-shaped cross-section when viewed in the longitudinal axis L direction. In this case and as exemplarily shown in <FIG>, <FIG>, <FIG> and <FIG>, the track profile <NUM> may comprise two opposite side walls <NUM> (here longitudinal side walls <NUM>) laterally delimiting the longitudinal opening <NUM> and being connected by a rear wall <NUM> (here a longitudinal rear wall <NUM>) for delimiting the interior space <NUM>. The rear wall <NUM> may comprise the second attachment section <NUM> at a side <NUM> facing the interior space <NUM>.

With reference to <FIG>, <FIG>, <FIG> and <FIG>, the track profile <NUM> may further comprise a mounting structure <NUM> here provided at a rear side <NUM> of the rear wall <NUM> opposite to the interior space <NUM>, thus extending rearwardly from the track profile <NUM>. The mounting structure <NUM> can comprise two longitudinal grooves <NUM> facing towards each other for receiving, for instance, any possible type of mounting element <NUM> for mounting the longitudinal luminaire <NUM> to a mounting surface, like a wall or a ceiling. This mounting element <NUM> can thus be a further part of the present luminaire <NUM>. The mounting element <NUM> may preferably comprise a cord suspension <NUM> (see, e.g., <FIG>), a mounting adapter <NUM>, like a mounting bracket, and/or a longitudinal mounting profile <NUM> (see, e.g., <FIG> and <FIG>). The longitudinal mounting profile <NUM> here comprises a U-shaped cross sectional layout, thus, providing an interior space <NUM> into which parts of the track profile <NUM> or mounting element <NUM> can be introduced for attaching the track profile <NUM> to the mounting profile <NUM>. The longitudinal mounting profile <NUM> preferably comprises longitudinally extending structures <NUM> to allow for a corresponding attachment.

The luminaire <NUM> may further comprise lighting electronics <NUM> like a driver <NUM> or sensors, which can preferably be attached to the track profile <NUM>, preferably at an outer side <NUM> of its rear wall <NUM> (see, e.g., <FIG> and <FIG>), or at the mounting element <NUM>, preferably its longitudinal mounting profile <NUM>, if present and as exemplarily shown in <FIG> and <FIG>.

As can be seen, for instance, in <FIG>, <FIG>, <FIG> and <FIG>, the rear side <NUM> of the rear wall <NUM> may further comprise additional structural features <NUM>, like a here longitudinal guiding structure into which further elements, like cables <NUM>, can be received and preferably guided.

As can be seen, for instance, in <FIG> also in combination with <FIG>, the optical group <NUM> further comprises a first holding section <NUM>. The first holding section <NUM> can be preferably an elastically deformable side wall protrusion <NUM> as exemplarity shown in <FIG>. The first holding section <NUM> thus can be provided as a kind of lateral wing protrusion. The track profile <NUM>, preferably the opposite side walls <NUM> and further preferred at a side <NUM> facing the interior <NUM>, comprises a second holding section <NUM> for mechanically cooperating with the first holding section <NUM> to attach the optical group <NUM> to the track profile <NUM>. The second holding section <NUM> therefore may provide a longitudinal groove section <NUM> into which the first holding section <NUM>, here with lateral protrusions <NUM> which in the shown embodiment protrude laterally outside, can snap in. To avoid the optical group <NUM> to be inserted too far inside the interior space <NUM>, the track profile <NUM> may further comprise stop structures <NUM> against which the optical group <NUM> and preferably the first holding sections <NUM> abut upon insertion of the optical group <NUM> into the track profile <NUM>; here orthogonally to the longitudinal axis L direction via the longitudinal opening <NUM>.

The lateral protrusions <NUM> can have different dimensions, i.e. extensions in parallel to the longitudinal axis L. For instance, very short protrusions as shown in <FIG> can be provided and preferably here (evenly) distributed along the first holding section <NUM>. The lateral protrusions <NUM> can also have a longer extension along a direction of the longitudinal axis L, as shown, for instance, in <FIG>. Also, the lateral protrusions <NUM> can extend along the entire length of the first holding section <NUM> or optical group <NUM> at all, as shown, for instance, in <FIG>.

The second attachment section <NUM> and preferably also the second holding section <NUM> and even the stop structures <NUM>, if present, can be made by a longitudinal profile structure on the track profile <NUM>; like any other structural elements of the track profile <NUM> as discussed herein above.

<FIG> show two different installation method options for attaching the optical group <NUM> (in)to the track profile <NUM>. Due to the corresponding layout of the optical group <NUM> in particular with its first holding sections <NUM> here provided as elastically deformable side wall protrusions <NUM>, the optical group <NUM> may inserted by a straight movement into the interior space <NUM>; i.e. in a direction orthogonally to the longitudinal opening <NUM> or the longitudinal axis L (see, e.g., <FIG>). To allow for insertion, the two opposite first holding sections <NUM> can be manually bent slightly towards each other, thus allowing the optical group <NUM> be inserted. Once being in the installation position, the lateral protrusions <NUM> snap laterally outwards into the second holding section <NUM> for mechanically cooperating with the first holding section <NUM> to attach the optical group <NUM> to the track profile <NUM>.

In an alternative installation method option as shown in <FIG>, the optical group <NUM> can be slightly inclined when being attached to the track profile <NUM> so that one of the two first holding sections <NUM> can already be inserted into the interior space <NUM> with its lateral protrusion <NUM> positioned at the corresponding second holding section <NUM>. Then, the optical group <NUM> can be pivoted about an axis extending in parallel to the longitudinal axis L to thus move the other of the two first holding sections <NUM> into installation position. To allow for installation, said other of the two first holding sections <NUM> can be manually elastically bent towards the one of the first holding sections <NUM> to allow insertion of the optical group <NUM> by pivoting movement. Once being in its installation position, i.e. fully inserted and preferably in abutment with the stop structures <NUM>, both lateral protrusions <NUM> snap into or are snapped in the corresponding second holding sections <NUM> and thus the optical group <NUM> is securely inserted and fit into the track profile <NUM>.

As can be clearly seen with respective <FIG> and <FIG>, each of the light sources <NUM> can functionally cooperate with at least two of the attachment clips <NUM>. Also, at least one and preferably at least two of the attachment clips <NUM> can functionally cooperate with one optical group <NUM> for alignment thereof with respect to the light source <NUM>.

Claim 1:
Longitudinal luminaire (<NUM>) extending along a longitudinal axis (L), comprising:
a longitudinal track profile (<NUM>) delimiting an interior space (<NUM>), wherein the track profile (<NUM>) comprises a longitudinal opening (<NUM>) to access the interior space (<NUM>),
a longitudinal light source (<NUM>) being provided in the interior space (<NUM>) and extending in parallel to the longitudinal axis (L), the light source (<NUM>) comprising a longitudinal PCB (<NUM>) being equipped with a plurality of LEDs (<NUM>) arranged in a row,
a plurality of optical elements (<NUM>) being integrally formed as an optical group (<NUM>) and arranged in a row corresponding to the LEDs (<NUM>) so that each of the optical elements (<NUM>) can be functionally positioned to at least one of the LEDs (<NUM>) when the optical group (<NUM>) is attached to the track profile (<NUM>) so that the optical elements (<NUM>) can optically influence light emitted from the associated LEDs (<NUM>), and
an attachment clip (<NUM>) comprising:
• a first attachment section (<NUM>) to be attached to a corresponding second attachment section (<NUM>) of the track profile (<NUM>) for holding the attachment clip (<NUM>) at the track profile (<NUM>) at least in a direction orthogonal to the longitudinal axis (L),
• a first fixing section (<NUM>) for relatively fixing the light source (<NUM>) via a corresponding second fixing section (<NUM>) of the light source (<NUM>) with respect to the attachment clip (<NUM>), and
• a first alignment section (<NUM>) for alignment of the attachment clip (<NUM>) relative to the optical group (<NUM>) via a corresponding second alignment section (<NUM>) of the optical group (<NUM>) so that each of the optical elements (<NUM>) are functionally positioned to the associated LEDs (<NUM>)
wherein the optical group (<NUM>) comprises a first holding section (<NUM>) and the track profile (<NUM>) comprises a second holding structure (<NUM>) for mechanically cooperating with the first holding section (<NUM>) to attach the optical group (<NUM>) to the track profile (<NUM>).