DE102010031190A1 - Lamp, has multiple LEDs placed on top face of carrier, circuit board resting under against contact surface of cooling body, and spring device pushed by circuit board in installation position against contact surface - Google Patents

Abstract

The lamp has multiple LEDs (4) placed on a top face of a carrier. A circuit board (3) rests under against a contact surface (12) of a cooling body (2). A spring device (5) is pushed by the circuit board in installation position against the contact surface. A leaf suspension (7) comprises a leaf pressure spring (6) held to the circuit board at the cooling body in installation position in a portion, rises up with another portion over the circuit board and rests under initial stress in spring top.

Description

The invention relates to a luminous element with LEDs and a heat sink, wherein the LEDs are mounted on an upper side of a carrier, in particular a circuit board, the board is fixed to the Kühlkorper and the board rests on a contact surface of a receptacle of the heat sink on the underside.

Such luminous bodies are increasingly used. The LEDs are usually mounted on the upper side of the board. These may be a few LEDs up to a plurality of LEDs. The cooling of the LEDs is necessary because of the temperature-dependent performance of the same. For cooling efficiency, it is expedient that there is a heat transfer between sinkers and heat sink with the lowest possible heat transfer resistance. For this purpose, the board for cooling expediently flat and close to the contact surface. The circuit boards are usually glued to the heat sink, whereby the boards are, however, hardly fixed releasably on the Kühlkorper. Furthermore, the heat transfer can be impaired by the adhesion. Alternatively, the boards can be bolted to the heat sink, which ensures interchangeability of the board. However, the screw must be set consuming at very short intervals in order to effect a good heat conduction between the board and heat sink.

The invention is therefore based on the object to provide a luminous body of the type mentioned, in which the board is easy and tight fitting to the heat sink can be fixed. In addition, the board should be arranged inexpensively exchangeable.

The stated object is achieved by the features of claim 1. Advantageous developments are described in the subclaims. The stated object is already achieved in that a spring device is provided, by means of which the circuit board is held in the installed position against the contact surface.

About the spring device can be transmitted to the board in a simple manner, a necessary contact force. Further, the board by means of the spring device, as explained in more detail below, are fixed in position on the heat sink with very little installation effort. The spring device allows the board, if desired, even at a plurality of points in a few or even a single step to initiate a spring force. This spring force can advantageously be at least approximately the same at all points, so that a uniform surface pressure of the board against the contact surface can be ensured. Thus, the board can be held solely by the spring force of the spring device in the receptacle. Since the board is kept loose in the installed position, it can easily be removed taking the spring force of the recording.

The receptacle may have a receiving groove with the contact surface as a groove bottom. The cross section of the receiving groove may be at least approximately equal to the cross section of the board. Thus, the board can be arranged in the direction parallel to the contact surface and transversely to the longitudinal extent of the receiving groove and shift-proof in the receiving groove.

Advantageously, the spring device may have leaf springing. This can be held or fixed on the heat sink on the heat sink. The leaf suspension can be supported against the contact surface on the load side by spring preload on the board for surface counterpressure of the board. To fix the position of the board in the recording, the leaf suspension can be brought in a simple manner via the voltage applied to the contact surface board spring force.

The leaf suspension may advantageously have at least one leaf compression spring. This may have a first portion in which it is held on the side of the board to the heat sink. The leaf compression spring may have a second portion, with which it protrudes in the installed position at least partially over the board and on the upper side abuts the same under spring preload.

The leaf spring is preferably in the installed position loosely on the top of the board. Preferably, the leaf spring is replaceably arranged on the lamp body. With solution of the leaf spring, the board of the recording can be easily removed again. The board can be easily mounted in the receptacle. The board can be used for their assembly in the recording and then fixed by means of the spring device preferably remain loosely fixed.

The board may be formed in a conventional design elongated with a longitudinal extent. Accordingly adapted, the heat sink may have an elongated profile. The heat sink may be cut to length from an extruded aluminum profile as a precursor. It may have channel-like chambers, grooves and / or ribs for its stabilization and improved heat radiation. So that he can serve as at least almost distortion-free support for the board at the same time. Preferably, the Kühlkorper is formed with respect to a longitudinal central section plane perpendicular to the contact surface mirror symmetry with centrally arranged contact surface.

The leaf compression spring may be arranged transversely to a longitudinal direction of the board arcuate or like a spine at least partially guided over the board. The leaf spring may be rotatably mounted on the heat sink in the first section, for example, about a rotation axis perpendicular to the contact surface. Thus, it can be biased away under deflection from the contact surface with the second section rotated over the board and placed under bias to the plant. In a preferred alternative embodiment of the luminous body may be provided on both sides of the board in each case one at least approximately in the longitudinal direction extending fastening groove. In this fastening groove, a respectively associated end region of the leaf compression spring can preferably engage to form the leaf pressure spring to form a preferably releasable snap or latching connection. Preferably, the positional fixing on the locking connection is formed so that, if anything, only a slight displacement of the leaf spring in the longitudinal direction of the mounting groove and / or the board in the receptacle is possible. This can for example be used to compensate for structural inaccuracies. Preferably, the board is fixed in position over the leaf pressure spring with respect to its longitudinal extension.

Thus, on both sides of the board in each case an end portion of the leaf spring can be set in an associated mounting groove, so that the middle region can be pressed kraftmechanisch low from two sides against the board. Preferably, the central region is formed as arched towards the board, preferably symmetrical arc. This can preferably be supported in the installed position in its vertex on the board. In the installed position, the leaf pressure spring preferably engages over at least one longitudinally extending section, preferably over at least approximately its entire longitudinal extent, into the fastening groove or fastening grooves.

The attachment groove can be designed as a latching receptacle for the latching element. For this purpose, the attachment groove on the inside may have a rear grip acting with respect to a direction perpendicularly away from the abutment surface with a shoulder. On the underside or on the inside of the fastening groove on this shoulder can be supported in the installed position, the associated locking element end and under spring tension.

The latching element may for example be formed like a hook with an angled hook end, wherein the hook end can latch on the Hintergriffigkeit in the mounting groove. In particular, the hook end may have a V, L or U-like profile with an angled free leg. The V-, L- or U-shaped profile can be opened in the installed position at the top. With insertion or impressions of the leaf spring, the free leg can slide under elastic deformation, for example, on the side facing away from the receptacle Nutenseitenrand. With complete immersion of the free end in the mounting groove, the free leg can elastically latch into the rear grip, preferably while maintaining an elastic residual stress in a Verrastungsposition into it. Preferably, the locking element is located in the locking position on the underside of the shoulder of the mounting groove.

For installation, the leaf compression spring can be pressed under flat placement on the heat sink with the central area above the board and the locking elements respectively over the associated mounting groove against the contact surface and lock on both sides. In a preferred manner of mounting, after the board has been inserted into the receptacle, one of the end regions is firstly pivotally inserted or hooked into the one fastening groove, wherein one end region can have a latching element at the end. Then, under pivoting of the leaf spring on the inserted in the mounting groove or hooked end portion and placing the middle portion on the top of the board, the leaf spring with the other end portion are pivoted against the other mounting groove and in the same under spring preload by means of the other Lock latching element arranged end region.

It can be provided in the installed position, for example, interlocking markings on the leaf spring and the mounting groove and / or the board for orderly, relative to the longitudinal extent relative position of the leaf spring and heat sink or board.

In terms of force mechanics or cooling technology, the leaf compression spring and / or the heat sink can have a mirror-symmetrical cross-sectional profile with a longitudinal mid-section plane perpendicular to the contact surface as a mirror symmetry plane.

In a preferred embodiment of the luminous element, the leaf-pressure spring can be formed flat with a longitudinal extension in the longitudinal direction of the board. The leaf compression spring may have a plurality of openings for passage of light of the LEDs. The leaf compression spring can be bent in a simple manner from a spring plate, the openings can be stamped into the spring plate. The spring plate can be cut to length from a sheet metal strip. At least for most openings, at least one LED can be assigned in each case. The LEDs may each have a pedestal and a light emitting head area. Preferably, the LEDs each protrude at least with each her head area the associated opening. As a result of the downward bow of the leaf spring, a kind of depression can be created, in which the LEDs can be arranged protected in the installed position of the leaf spring.

The openings may each have an elongated opening profile with a larger opening axis transverse to the longitudinal extent of the leaf pressure spring. Also advantageous from a shape aesthetics forth, the openings in the longitudinal direction of the leaf spring can be arranged in alignment with each other and spaced by transverse webs. In this case, at least one specific, preferably at least a predominant number of transverse webs can each be supported on the printed circuit board as spring-force-effective as a middle region of the leaf compression spring. Thus, the spring force of the spring assembly can be low-force mechanically introduced at a plurality of points of attack for the leaf spring or its transverse webs in the board.

It goes without saying that LEDs and openings may also be arranged together in another way or the openings may be formed in another way, without departing from the scope of the invention.

The individual components of the luminous element, heat sink, circuit board and / or leaf spring can be designed to be cut to length. The circuit board may preferably have a Ablängende for cutting the board and an electrical connection end for an electrical connection with, for example, a supply voltage and possibly a control voltage. Accordingly, the luminous body can be designed to be cut to length, for example, to be adapted to installation sizes on site.

The present invention will be explained in more detail below with reference to an embodiment shown in a drawing.

In the drawing show:

1 a perspective top view of a luminous body and

2 a cross-sectional view of the filament.

In the 1 and 2 each is a view of a filament 1 with a heat sink 2 , a circuit board 3 with LEDs arranged on the top side 4 and a spring device 5 with a flat leaf spring 6 as leaf suspension 7 shown.

The heat sink 2 is an extruded, cut aluminum profile with cooling fins 8th and hollow chambers 9 , The board 3 has a substantially rectangular, in the longitudinal direction 1 extending basic form. She is in an elongated receiving groove 10 a recording 11 centered on the heat sink 2 arranged. The groove bottom of the receiving groove 10 is as investment area 12 trained, against which the board 3 by means of the spring device 5 over the leaf pressure spring 6 flat pressed and held. Leaf spring 6 and board 3 are loose in the installation position and replaceable on the heat sink 2 arranged.

By means of the spring device 5 will the board 3 in her in the 1 and 2 installation position shown loosely against the receiving surface 12 the receiving groove 10 kept pressed. In the 1 and 2 is the leaf pressure spring 6 However, not shown in exact mounting position, but in a mounting position during an assembly step to the installation position.

The two sides of the receiving groove 10 and parallel spaced therefrom, one each is a mounting groove 13 trained longitudinal groove provided in each of which an associated end portion 14 the leaf pressure spring 6 under formation of a locking connection 15 intervenes. In a middle area 16 indicates the leaf pressure spring 6 one to the board 3 arched arch 17 on, the center under spring preload, that is here in its apex, the top of the board 3 supported.

The fastening grooves 13 each have a T-shaped cross-section. As a result, two inwardly with respect to a direction perpendicular to the contact surface 12 away effective grip 18 with a shoulder 19 created. This is where the end areas are based 14 in the respective associated mounting groove 13 spring force on the shoulder 19 in a direction r, from the receiving groove 10 points away. The end areas 14 are each here as a hook-like locking element 20 with an angled hook end 21 trained, that at the Hintergriffigkeit 18 locked.

The hook end 21 here has an approximately U-like profile with an angled free leg 22 on, which springs resiliently into the rear grip for locking and on the inside of the shoulder 19 supported. In the 1 and 2 is in each case an end area 14 in the associated mounting groove 13 so introduced to the middle area 16 with the bow 17 already on the top side of the board 3 is applied. As easily further removed from the figures, for further assembly in the drawing still on the associated mounting groove 13 "Floating" illustrated end portion 14 for locking against direction r in the mounting groove 13 depressed. This slides the free leg 22 the hook end 21 at the groove opening 23 under elastic deformation from and locked with entry into the mounting groove 13 in the back grip 18 into it. Thus, the board can with few steps 3 loose in the receptacle 11 Fixed in position and with release of the leaf pressure spring 6 again from the heat sink 4 be solved.

As can also be seen from the figures, the receiving groove is 10 the board 3 adjusted so that a lateral displacement of the board 3 in the transverse direction q beyond a certain game is not possible.

As also shown in the drawing, have leaf pressure spring 6 and heat sink 2 in each case a nearly mirror-symmetrical cross-sectional profile with a longitudinal middle section plane perpendicular to the contact surface 12 as a mirror symmetry plane. The mirror symmetry plane is in 2 perpendicular to the image plane. The luminous body 1 has the same mirror symmetry. This mirror symmetry has the advantage of a favorable symmetrical force curve and cooling behavior.

The in 1 shown luminous body 1 can also be understood as an elongated section of the luminous body, which can extend over larger quantities. The leaf pressure spring 6 is here bent from a spring plate and extends in installation position in the longitudinal direction of the board 3 , The leaf pressure spring 6 has a variety of openings 24 for the LEDs 4 on. Here are the openings 24 in each case an equal in the transverse direction q elongated opening profile. The openings 24 are in the longitudinal direction 1 the leaf pressure spring 6 in alignment with each other and through crossbars 25 spaced apart. These crossbars 25 each form a bow 17 over which the leaf pressure spring 6 spring effective on the board 3 supported.

Here is every opening 24 an LED 4 assigned. The LEDs 4 have a light emitting head area 26 on, in particular, the 2 removable, in installation position of the leaf pressure spring 6 the openings 24 surmounted by the same. Due to this relative arrangement of LEDs 4 and leaf pressure spring 6 will the board 3 securely fixed in position, but the emitted light of the LEDs 4 not impaired.

Such as in 2 clearly seen, the assembly of the lamp body 1 done so that, after arrangement of the board 3 in the recording 11 , the leaf pressure spring 6 with the locking element 20 of in 2 left end area 14 in the left attachment groove here 13 is hooked. After that, the leaf pressure spring 6 under marked pivoting direction s and under formation of the locking connection 15 in the left end area 14 pivoted. This is the leaf pressure spring 6 in a first pivoting step with its central area on top of the board 6 on. In a second pivoting step in the pivoting direction s, the leaf pressure spring 6 under elastic deflection with the locking element 20 over the here right fastening groove 13 brought and by means of the locking element 20 of the right end area 14 in the mounting groove 13 locked into it. For easier proper pressing of the leaf spring 6 have the end areas 14 each to the middle area 16 towards a here flat designed pressure area 27 on.

LIST OF REFERENCE NUMBERS

1

illuminant

2

heatsink

3

circuit board

4

LED

5

spring device

6

Leaf spring

7

Steel suspension

8th

cooling fin

9

hollow

10

receiving groove

11

admission

12

contact surface

13

mounting groove

14

end

15

locking connection

16

middle area

17

bow

18

rear grip

19

shoulder

20

locking element

21

hook end

22

leg

23

groove opening

24

opening

25

crosspiece

26

head area

27

pressure region

l

longitudinal direction

q

transversely

r

direction

s

pan direction

Claims (10)

Illuminant with LEDs ( 4 ) and a heat sink ( 2 ), the LEDs ( 4 ) on an upper side of a carrier, in particular a circuit board ( 3 ), the board ( 3 ) on the heat sink ( 2 ) and the board ( 3 ) on the underside of a contact surface ( 12 ) of the heat sink ( 2 ), characterized in that a spring device ( 5 ) is provided, by means of which the board ( 3 ) in the installation position, loosely against the contact surface ( 12 ) is held down. A luminous element according to claim 1, characterized in that the spring device ( 5 ) a leaf suspension ( 7 ), the force side of the Heat sink ( 2 ) and load side under spring preload on the top side of the board ( 2 ) is supported Luminaire according to claim 2, characterized in that the leaf suspension ( 7 ) at least one leaf compression spring ( 6 ) in the installed position in a first section of the side of the board ( 3 ) on the heat sink ( 2 ), with a second section over the board ( 3 ) protrudes and spring-loaded on the upper side of the same. A luminous element according to claim 3, characterized in that the leaf pressure spring ( 6 ) and / or board ( 3 ) replaceable on the heat sink ( 2 ) can be arranged. A luminous element according to claim 3 or 4, characterized in that the leaf pressure spring ( 4 ) transversely to a longitudinal direction of the board ( 3 ) arched or arched over the board ( 3 ) is arranged guided, on both sides of the board ( 3 ) each with an end region ( 14 ) formed first portion on the heat sink ( 2 ) and with the middle range ( 16 ) formed second section in one to the board ( 3 ) curved arch ( 17 ) on the board ( 3 ) is supported. Luminaire according to claim 5, characterized in that on both sides of the board ( 3 ) each one at least approximately in a longitudinal direction of the board ( 3 ) extending fastening groove ( 13 ) is provided, in which the respectively associated end region ( 14 ) of the leaf pressure spring ( 6 ) forming a latching connection ( 15 ) intervenes. A luminous element according to claim 6, characterized in that the end region ( 14 ) at the end as a latching element ( 20 ) is formed and the fastening groove ( 13 ) on the inside a with respect to a direction (r) perpendicular to the contact surface ( 12 ) away effective grip ( 18 ) with one shoulder ( 19 ), wherein the locking element ( 20 ) for forming the locking connection ( 15 ) elastic in the rear grip ( 18 ) locked into it. Luminaire according to one of claims 1 to 7, characterized in that the leaf pressure spring ( 6 ) and / or the heat sink ( 2 ) an at least almost mirror-symmetrical cross-sectional profile with a longitudinal middle section plane perpendicular to the contact surface ( 12 ) as a mirror symmetry plane. Luminaire according to one of claims 3 to 8, characterized in that the leaf pressure spring ( 6 ) is flat, in the installation position in the longitudinal direction ( 1 ) of the board ( 3 ) and a plurality of openings ( 24 ) for the LEDs ( 4 ) having. A luminous element according to claim 9, characterized in that the openings ( 24 ) each have an elongated opening profile with a larger opening axis transverse to the longitudinal direction ( 1 ) of the leaf pressure spring ( 6 ) and longitudinally ( 1 ) of the leaf pressure spring ( 6 ) aligned with each other and by transverse webs ( 25 ) are spaced from each other and that at least a certain number of transverse webs ( 25 ) as a middle range ( 16 ) of the leaf pressure spring ( 6 ) spring force effective on the board ( 3 ).

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