DE102018100634A1 - Mounting arrangement with positioning properties - Google Patents

Abstract

The invention relates to a fastening arrangement (1) for fastening a printed circuit board (10) to a receiving body (11), comprising at least one fastening spring (12) which has two spring arms (13, 14) which are resiliently displaceable relative to each other, wherein at least one Spring leg (13, 14) an end-side clamping portion (15) and a latching means (25) are formed, and wherein in the circuit board (10) a first hole (16) and the receiving body (11) a second hole (17) are formed, through which the fixing spring (12) is passed and wherein the clamping portion (15) and the latching means (25) on the circuit board (10) and the receiving body (11) abut each other, so that they are held together with an axial force (fax). According to the invention, the first spring leg (13) is biased against a first hole wall (18) of the first hole (16) and the second spring leg (14) is biased against an opposite second hole wall (19) of the second hole (17), so that the printed circuit board ( 10) is biased with a lateral force (Fs) relative to the receiving body (11).

Description

The invention relates to a fastening arrangement for fastening a printed circuit board on a receiving body, with at least one fastening spring having two resiliently mutually movable and opposing spring leg, wherein at least one spring leg, an end-side clamping portion and a latching means are formed, and wherein in the circuit board, a first Hole and in the receiving body, a second hole are formed, through which the fastening spring is passed and wherein the clamping portion and the latching means on the circuit board and the receiving body lie opposite each other, so that they are held together with an axial force.

STATE OF THE ART

For example, is from the WO 2017/174336 A1 a fastening arrangement for fastening a printed circuit board on a receiving body, and the fastening arrangement has a plurality of fastening springs, which have two resiliently mutually movable and opposing spring legs. At the spring legs clamping portions are formed end, which brace upon insertion of the fastening spring in associated holes in the circuit board and in the receiving body with a locking means. The locking means is formed by the tension spring with a corresponding thickening, so that the fastening spring can be arranged self-holding in the holes. In this case, the fastening spring passes through both holes and the fastening spring can be easily manufactured and formed for connecting the circuit board to the receiving body. By arranging the fixing spring, an axial force is generated with which the printed circuit board is pressed onto the receiving body. A lateral, that is lateral positioning in the plane of the circuit board can not take place with respect to the receiving body.

From the DE 20 2015 107 015 U1 a further mounting arrangement for mounting a printed circuit board on a receiving body is known, for which also serves a fastening spring, which passes through both an opening in the circuit board and an opening in the receiving body. The fixing spring is formed from a one-piece metal stamped and bent component and has a clamping portion and a latching means, and upon insertion of the fixing spring in associated holes in the circuit board and in the receiving body, the latching means can be clamped to the clamping portion.

If illuminants are applied to the printed circuit board and these illuminants have to be positioned relative to a reflector or other optical component, positioning of the printed circuit board in particular in the planar, i. lateral level required. Usually this fishing pins are used, to which the circuit board must be placed, with a corresponding dimensioning of the circuit board is necessary and whereby an additional manufacturing effort arises. If, for example, the receiving body forms part of the reflector, for example a reflector base on which the printed circuit board is applied, and if illuminants applied to the printed circuit board radiate into the reflector, it is desirable to position the printed circuit board in the planar plane as precisely as possible on the receiving body , At the same time, however, the production and assembly costs should be minimized, wherein the manufacturing of the holes for passing the fastening spring should not necessarily have a very narrow dimensional tolerance, since this increases the manufacturing costs again.

DISCLOSURE OF THE INVENTION

The object of the invention is the development of a fastening arrangement for fastening a circuit board on a receiving body, wherein the attachment is to generate an axial force with which the circuit board is pulled in the direction of the receiving body. Furthermore, the circuit board should be positionable in its planar plane relative to the receiving body, the positioning should be done with particular advantage by the mounting spring itself.

This object is achieved on the basis of a fastening arrangement according to the preamble of claim 1 in conjunction with the characterizing features. Advantageous developments of the invention are specified in the dependent claims.

The invention includes the technical teaching that the first spring leg is biased against a first hole wall of the first hole and that the second spring leg is biased against an opposite second hole wall of the second hole, so that the printed circuit board is biased with a lateral force relative to the receiving body.

Core idea of the invention is not the use of the mounting spring as a narrowly toleranced reference component, which cooperates with correspondingly tolerated holes in the circuit board and the receiving body, but the fixing spring is inventively developed so that not only an axial force is generated with the circuit board perpendicular to the receiving body is pressed, but the fixing spring cooperates with the corresponding geometries of the holes in the circuit board and the receiving body so that In addition to the axial force in the conductor plate relative to the receiving body, a lateral, ie acting in the plane of extension of the circuit board lateral force can be generated. This is achieved by the holes are not aligned with each other, but the hole in the circuit board has an offset to the hole in the receiving body. If the fastening spring now passed through both holes, which substantially overlap, and the voltage of the two spring legs is given to the hole walls, so the bias between the two spring legs can generate the lateral force between the circuit board and receiving body. The generation of the lateral force is based on that a first spring leg presses against a first hole wall of the first hole, and a second spring leg presses against an opposite hole wall of the second hole, wherein the holes are introduced once in the circuit board and once in the receiving body. Consequently, the bias of the mounting spring generates the side force, and the circuit board can be pressed against a reference point relative to the receiving body, for example, formed by a means of attachment, so that between the attachment means and the circuit board, a fixed point is generated, which is exactly tolerated to the light source on the circuit board.

With particular advantage, respective clamping surfaces are formed on the spring legs, which serve to rest against the first hole wall and the second hole wall. The clamping surfaces have outward and lie in their training on the spring legs accordingly.

With further advantage, at least one spring clip is formed on at least one spring leg, which braces the spring legs against each other when this is introduced into the holes. The spring legs additionally support the spring action and the spreading force that is to be generated between the two clamping surfaces of the spring legs. The clamps can themselves be resilient, so that the compression of the spring legs causes a Aufeinanderbringen the clamping bracket, whereby the lateral force of the circuit board is reinforced relative to the receiving body.

For example, the fastening spring is formed from a one-piece metal element and produced by stamping and bending process. Thus, the fixing spring can be provided in a simple and inexpensive manner.

With further advantage, a contact means is arranged in operative connection between the printed circuit board and the receiving body, with which the printed circuit board is arranged at least in the direction of the lateral force in a defined position relative to the receiving body. The attachment means comprises, for example, a positioning dome and a positioning opening, wherein the positioning dome protrudes from a contact surface of the receiving body for abutment of the printed circuit board and projects into the positioning opening which is introduced into the printed circuit board. The positioning can be made slightly larger than the positioning dome, wherein the positioning dome and positioning, for example, each form a circular cross-section. If the lateral force is applied to the printed circuit board and this shifts relative to the receiving body when the fastening spring is used, the printed circuit board with the hole edge of the positioning against a fixed point of the positioning dome, so that the circuit board has a referenced position in the direction of the lateral force. With further advantage, a first fastening spring is provided for fastening the printed circuit board on the receiving body, which generates a first side force when arranged in the holes, and it can be used a second fastening spring which generates a second side force when arranged in further holes, the force directions the first and the second side force are perpendicular to each other. Thus, the circuit board can be positioned in its extension plane in both directions on the receiving body, wherein the receiving body forms, for example, a heat sink or a reflector base.

The holes in the circuit board and in the receiving body have a rectangular extension and are in particular designed in a direction with a width which is greater than the width of the fastening spring in its spring direction. Only then can the partial overlap of the two holes between the printed circuit board and the receiving body be generated, since the fastening spring consequently does not come to rest within a hole on opposite hole walls with its two spring legs.

list of figures

• 1 eine quergeschnittene Seitenansicht durch die Befestigungsanordnung mit einer Befestigungsfeder und mit einem zugehörigen Anlagemittel,
• 2 eine perspektivische Ansicht einer Befestigungsfeder, wie diese Bestandteil der Befestigungsanordnung gemäß 1 ist,
• 3a eine Seitenansicht der Befestigungsfeder im spannungslosen Zustand und
• 3b eine Seitenansicht der Befestigungsfeder in einem vorgespannten Zustand, wenn sich diese in den Löchern der Leiterplatte und dem Aufnahmekörper gemäß 1 befindet.

Further, measures improving the invention will be described in more detail below together with the description of a preferred embodiment of the invention with reference to FIGS. It shows:

• 1 a cross-sectional side view through the mounting arrangement with a fastening spring and with an associated attachment means,
• 2 a perspective view of a fastening spring, as this part of the fastening assembly according to 1 is
• 3a a side view of the fixing spring in the de-energized state and
• 3b a side view of the fastening spring in a prestressed state, when in the holes of the circuit board and the receiving body according to 1 located.

1 shows a fastening arrangement 1 for fastening a printed circuit board 10 on a receiving body 11 , For this purpose, a fixing spring is used 12 passing through a first hole 16 in the circuit board 10 and through a second hole 17 in the receiving body 11 extends through. The fixing spring 12 has in its basic structure a first spring leg 13 and a second spring leg 14 on, and the two spring legs 13 and 14 are connected to each other on the underside and spaced apart in the de-energized state.

For locking the fixing spring 12 serve latching means 25 , and is the fixing spring 12 in the holes 16 and 17 inserted, locks the locking means 25 the fixing spring 12 under tension with the clamping sections 15 , the end of the spring legs 13 and 14 are formed.

The first spring leg 13 is against a first hole wall 18 the first hole 16 biased and the second spring leg 14 is against an opposite second hole wall 19 the second hole 17 biased so that the circuit board 10 with a lateral force fs relative to the receiving body 11 is biased. The side force fs runs in the plane of the circuit board 10 or of the receiving body 11 , and also results in an axial force fax with which the fixing spring 12 the circuit board 10 perpendicular to the receiving body 11 suppressed.

Also shown is an investment means 22 in operative connection between the circuit board 10 and the receiving body 11 with which the circuit board 10 in the direction of the lateral force fs in a defined position relative to the receiving body 11 is held. The investment funds 22 has a positioning dome 23 up, arising from the receiving body 11 extends out, and the circuit board 10 includes a positioning hole 24 through which the positioning dome 23 extends through. The circuit board 10 not in the illustrated embodiment is not the entire surface on a contact surface 26 of the recording body 11 up, there the hole 17 in the receiving body 11 having a collar, but also given the possibility that the circuit board 10 over the entire surface of the receiving body 11 rests.

Due to the lateral displacement of the printed circuit board 10 relative to the receiving body 11 , which is generated by the lateral force fs , results in a fixed point 27 between the positioning dome 23 and the positioning hole 24 , The positioning dome 23 and the positioning hole 24 can be carried out to a degree circular, with the positioning 24 may have a slightly larger diameter than the positioning dome 23 ,

2 shows the attachment spring 12 in a perspective view, and the illustration shows the first spring leg 13 and the opposite spring leg 14 with the respective locking means 25 , End to the spring legs 13 and 14 are the clamping sections 15 formed, and the clamping sections 15 can be on the top of the circuit board 10 rest while the locking means 25 on the underside of the receiving body 11 can lock, see 1 , Below the tensioning sections 15 own the spring legs 13 and 14 respective clamping surfaces 20 with which these against the hole walls 18 and 19 Press when the mounting spring 12 in the holes 16 and 17 according to 1 is used.

The 3a and 3b show the fixing spring 12 once in an unstrained and once in a tense state (the latter 3b) , The fixing spring 12 with the spring legs 13 and 14 as well as the locking means 25 owns in the area of the clamping sections 15 inside clamping clamps 21 , and if the fixing spring 12 is tense, see 3b , so move the spring legs 13 and 14 towards each other and the clamps 21 can tense against each other. The bracing of the clamping bracket 21 supports the formation of lateral force fs because these are a quasi-pushing apart of the spring legs 13 . 14 effect. This pushing apart supports the formation of lateral force fs , please refer 1 ,

The invention is not limited in its execution to the above-mentioned preferred embodiment. Rather, a number of variants is conceivable, which makes use of the illustrated solution even with fundamentally different types of use. All of the claims, the description or the drawings resulting features and / or advantages, including design details, spatial arrangements and method steps may be essential to the invention both in itself and in a variety of combinations. In particular, more than one attachment spring 12 between the circuit board 10 and the receiving body 11 be provided so that another, preferably perpendicular to the first side force fs generated lateral force fs is formed. This allows the circuit board 10 in their plane on the receiving body 11 be pre-tensioned.

LIST OF REFERENCE NUMBERS

1

mounting assembly

10

circuit board

11

receiving body

12

mounting spring

13

spring leg

14

spring leg

15

clamping section

16

first hole

17

second hole

18

first hole wall

19

second hole wall

20

clamping surface

21

tensioning bow

22

investment funds

23

Positionierdom

24

positioning

25

latching means

26

contact surface

27

fixed point

fax

axial force

fs

lateral force

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2017/174336 A1 [0002]
• DE 202015107015 U1 [0003]

Claims (8)

Fastening arrangement (1) for fastening a printed circuit board (10) on a receiving body (11), having at least one fastening spring (12) which has two resiliently mutually movable and opposing spring legs (13, 14), wherein at least one spring leg (13, 14), an end-side clamping portion (15) and a latching means (25) are formed, and wherein in the circuit board (10) a first hole (16) and in the receiving body (11) a second hole (17) are formed, through which the fastening spring (12) is guided and wherein the clamping portion (15) and the latching means (25) on the circuit board (10) and the receiving body (11) abut each other, so that they are held together with an axial force (fax), characterized in that the first spring leg (13) is biased against a first hole wall (18) of the first hole (16) and that the second spring leg (14) against an opposite second hole wall (19) of the second hole (17) is biased so that the printed circuit board (10) with a side force (Fs) is biased relative to the receiving body (11). Mounting arrangement (1) according to Claim 1 , characterized in that on the spring legs (13, 14) respective clamping surfaces (20) are formed, which serve to rest against the first hole wall (18) and the second hole wall (19). Mounting arrangement (1) according to Claim 1 or 2 , characterized in that at least one spring leg (13, 14) at least one clamping bracket (21) is formed, which braces the spring legs (13, 14) against each other when this is in the holes (16, 17) is introduced. Mounting arrangement (1) according to one of Claims 1 to 3 , characterized in that the fastening spring (12) is formed from a one-piece metal element and produced by means of stamping and bending process. Fastening arrangement (1) according to one of the preceding claims, characterized in that in operative connection between the printed circuit board (10) and the receiving body (11) is arranged a bearing means (22) with which the printed circuit board (10) at least in the direction of the lateral force (Fs ) is arranged in a defined position relative to the receiving body (11). Mounting arrangement (1) according to Claim 5 , characterized in that the abutment means (22) comprises a Positionierdom (23) and a positioning opening (24), wherein the Positionierdom (23) from a contact surface (26) of the receiving body (11) for abutment of the printed circuit board (10) protrudes and in the positioning opening (24) protrudes, which is introduced in the circuit board (10). Fastening arrangement (1) according to one of the preceding claims, characterized in that for fastening the printed circuit board (10) on the receiving body (11) a first fastening spring (12) is provided which, when arranged in the holes (16, 17), a first side force (Fs) is produced and that a second fastening spring (12) is provided, which generates a second side force (Fs) when arranged in further holes (16, 17) and / or wherein the directions of force of the first and second side forces (Fs) are perpendicular to each other , Fastening arrangement (1) according to one of the preceding claims, characterized in that the holes (16, 17) have a rectangular extent and / or that the holes (16, 17) in one direction have a width which is greater than the width of the Fixing spring (12) in its spring direction.

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