WO2017220258A1

WO2017220258A1 - Contact system, circuit board assembly and plug assembly

Info

Publication number: WO2017220258A1
Application number: PCT/EP2017/061735
Authority: WO
Inventors: Nicolas SCHREIBMÜLLER; Michael Schwab
Original assignee: Zf Friedrichshafen Ag
Priority date: 2016-06-23
Filing date: 2017-05-16
Publication date: 2017-12-28
Also published as: DE102016211256A1

Abstract

The invention relates to a contact system for the electric contact of a circuit board (2) with a plug (1), wherein the plug (1) can be inserted into an opening (4) in the circuit board (2), thereby allowing electric contact to be established, wherein an annular coil spring (5) is provided, which is arranged within the opening (4) of the circuit board (2) radially between the plug (1) and the circuit board (2), via which the electric contact is established. The invention also relates to a circuit board assembly (3), in which an annular coil spring (5) for the electric contact of the circuit board (2) with the plug (1) is fixedly disposed in the opening (4) of the circuit board (2) in such a way that the annular coil spring (5) is positioned radially between the plug (1) and the circuit board (2) when the plug (1) is inserted in the opening. In addition, the invention also relates to a plug assembly (7), in which an annular coil spring (5) is axially fixed on a plug (1) of the plug assembly (7) between a front stop (8) and a rear stop (9) as seen looking in the plug-in direction, wherein the rear stop (9) as seen looking in the plug-in direction simultaneously serves as the insertion stop for the plug (1).

Description

Contact system, circuit board assembly and connector assembly

The invention relates to a contact system and a printed circuit board assembly and a connector assembly.

A contact system or plug arrangement for making electrical contact with a plug with a socket is known from DE 694 03 172 T2. Here, the electrical contact between the plug and socket is realized by a arranged on the plug or on the socket continuous coil spring.

It is also known to insert electrical components or plugs into corresponding openings of a printed circuit board and optionally to be soldered to this, in order to make electrical contact with the printed circuit board.

The object of the invention is to improve the state of the art.

This task is solved by the features of the skin spokes. Preferred embodiments are the dependent claims.

Thus, on the one hand, a contact system for making electrical contact with a printed circuit board with a plug is proposed, and, on the other hand, a printed circuit board arrangement and a plug arrangement. By means of this printed circuit board assembly and plug arrangement, such a contact system can be realized or they can each be a part of such a contact system.

In the contact system for electrical contacting of the circuit board is provided with the plug, that the plug in an opening in the circuit board can be inserted and thereby the electrical contact can be produced. The contact system provides for this within the opening of the circuit board radially between the plug and printed circuit board arranged annular coil spring over which the electrical contact is made. In the inserted state of the plug in the opening, the annular coil spring is thus radially between the plug and circuit board. The ring- The helical spring then rests with its side against the opening and the plug, in particular with a radial inner side on the plug and with a radial outer side on the opening. The ring helical spring forms the electrical contact between plug and circuit board. The electric current transmitted from plug to circuit board or vice versa therefore flows in particular exclusively or at least largely via the ring helical spring.

Such a ring helical spring is preferably a ring-shaped or quasi-annular helical spring in its initial state in plan view. A in her initial state in plan view oval coil spring or triangular or rectangular or square or polygonal helical spring, possibly with rounded corners, so also falls under the concept of the eye coil spring. The ends of the coil spring are in particular connected to each other, for example, welded together or hooked or plugged into each other. It then has a completely closed shape. The hooped coil spring can therefore form a continuous helical spring. The eyebolts spring can also be referred to as "Canted Coil Spring".

The ring helical spring is used to compensate for tolerances due to the bias of the spring and for uniform contact of the circuit board.

The eye coil spring may be arranged fixed in the opening of the printed circuit board. You can do this, for example, be arranged in a groove in the opening of the circuit board. Alternatively, the eyebolts spring can be arranged fixed to the plug. It can be arranged for example in a groove of the plug. Thus, the position of the ring helical spring is fixed at least in the axial direction of the opening or of the plug.

The opening in the printed circuit board may in particular be a bore. A bore is a cylindrical opening. It is preferred, but not necessarily made by a drilling process. The bore or opening in general can also be produced, for example, by a stamping, milling, water cutting, LA-SER cutting or eroding method. The hole can either as a blind hole, so not consistently, or as a through hole, so consistently executed. The opening can also be designed differently instead of cylindrical. Thus, the cross section of the opening in particular also oval or triangular or rectangular or polygonal, possibly with rounded corners, be. The hooped coil spring usually assumes the shape of the opening when it is located in the opening. In installed or inserted in the opening state, the eye coil spring so be corresponding to the opening round, oval, triangular, rectangular or polygonal, etc.

The circuit board can be designed in particular as a PCB (= printed circuit board). It can have one or more electrical components, such as resistors, capacitors, logic modules, memory modules, etc. It can be single-layered or multi-layered. It can also be called a circuit board.

The proposed printed circuit board assembly comprises one or said printed circuit board and an opening in the printed circuit board for receiving one or said plug for making electrical contact with the printed circuit board with the plug. In this case, a ring coil spring for electrical contacting of the circuit board is provided with the plug. The ring coil spring is disposed in the opening of the circuit board so that it is radially between the plug and the circuit board when the plug is inserted into the opening.

Preferably, a radial inner wall of the opening of the printed circuit board is coated electrically conductive. For example, the inner wall is galvanically metallized. Thus, an electric current can be transmitted directly from the ring helical spring to the radial inner wall of the opening on which the eyebrow spring radially abuts. Thus, the electrical contact between the coil spring and the circuit board is thus easily made.

The printed circuit board arrangement preferably has at least one holding element arranged on the printed circuit board, which fixes the ring helical spring in at least one axial direction of the opening. The holding element can thus fix the eye coil spring in both axial directions of the opening. Radially the eyebolt spring in particular by its bias, with which it is inserted into the opening, and fixed by the radial inner wall of the opening. Thus, the eye coil spring is completely fixed in the circuit board.

The opening may, as explained above, be a passage opening. Then, a holding element can be arranged on each of the two sides of the circuit board through which the opening passes. These holding elements fix the annular coil spring in the axial direction of the opening, ie in both axial directions. In particular, a first holding element may be provided on one of the sides of the printed circuit board, which fixes the annular coil spring in a first axial direction of the opening. In addition, then on another of the sides of the circuit board, a second holding element may be provided, which fixes the ring helical spring in a second axial direction of the opening (which is opposite to the first direction). As a result, the ring helical spring can be easily fixed in the circuit board. The holding elements can be glued, clipped, screwed, melted, etc. on the circuit board, for example.

The proposed plug arrangement has one or said pin-shaped plug for insertion into an opening of a component which is to be contacted with the plug electrical, such as said circuit board, and a ring screw spring arranged on the plug for electrical Kontak- ting the plug with the component. The ring helical spring is axially fixed on the plug between a front stop in the direction of insertion and a rear stop in the insertion direction. At the same time, the rear stop in the plug-in direction serves as a plug-in stop for the plug. The plug-in direction here is the direction in which the plug must be moved in order to be inserted into the opening of the component.

The insertion depth of the plug into the opening of the component is thus limited by the rear stop in the insertion direction, ie it serves as a plug-in stop. When inserting the rear stop that is in fact against the component, thereby preventing further insertion. An extra stop for the plug or the plug arrangement can thus be dispensed with. The rear stop points to it in particular a larger diameter than an inner diameter of the opening.

In particular, the stops for the eye coil spring can be formed by shoulders on the plug. In this case, a diameter of the plug in the region of the shoulder for the front stop in the insertion direction is then smaller than a diameter of the plug in the region of the shoulder for the rear stop in the insertion direction. The front stop can be easily inserted into the opening. It then has a smaller diameter than an inner diameter of the opening. In contrast, the rear stop abuts the component during the insertion process, i. the plug can then no longer be inserted into the opening. The rear stop then has a larger diameter than an inner diameter of the opening.

The statements or suggestions made regarding the proposed contact system, in particular with regard to the hooped coil spring, the printed circuit board or the opening, apply correspondingly to the proposed printed circuit board arrangement and plug arrangement.

In the following, the invention will be explained in more detail with reference to schematic figures, from which further preferred embodiments and features of the invention can be removed. Showing:

1 shows a first embodiment of a contact system or a printed circuit board arrangement in an unplugged state,

2 shows the first embodiment of the contact system or the printed circuit board assembly in an inserted state,

3 a ring coil spring,

4 shows a second embodiment of a contact system or a plug arrangement in an unplugged state, Fig. 5 shows the second embodiment of the contact system and the connector assembly in an inserted state.

In the figures, identical or at least functionally identical components or elements are provided with the same reference numerals.

The contact system according to FIG. 1 and FIG. 2 has a pin-shaped

Plug 1 and a printed circuit board 2. The plug 1 may in particular have a round or oval cross-section.

The circuit board 2 is part of a circuit board assembly 3. The circuit board assembly 3 has the circuit board 2 and a arranged in an opening 4 of the circuit board 2 ring coil spring 5. The plug 1 is in a plug-in direction, indicated in Fig. 1 by an arrow in the opening 4 pluggable. As a result, an electrical contact between the plug 1 and the printed circuit board 2 is produced. The opening 4 in the circuit board 2 thus serves as a socket for the present

Plug 1.

The opening 4 may be, for example, a through hole in the printed circuit board 2. A longitudinal axis of the plug 1 and the opening 4 is represented by the axis L. For insertion of the plug 1 in the opening 4, these, as shown in Fig. 1, must be aligned or coaxial with each other.

Fig. 2 shows the inserted state of the plug 1. The eye coil spring 5 is now within the opening of the circuit board 2 radially between the plug 1 and the circuit board 2. Thus, the electrical contact is made via the eye coil spring 5. For this purpose, as can be seen in FIGS. 1 and 2, the annular coil spring 5 is arranged fixed in the opening 4.

In order to simplify the electrical contacting between the printed circuit board 2 and the coil spring 5, the radial inner wall 4A of the opening 4 is preferably coated in an electrically conductive manner. At the latest when the eye coil spring 5 expands upon insertion of the plug 1 into the opening 4, it lays radially against the inner wall 4A of Opening 4 on. Thus, it is in the inserted state on the one hand to the plug 1 (with a radial inner side of the eye coil spring 5) and on the other hand on the inner wall 4A of the opening 4 (with a radial outer side of the eye coil spring 5). Thus, electric current from the plug via the ring helical spring 5 to the inside of the opening 4, so the circuit board 2, flow - and vice versa.

As can also be seen in FIGS. 1 and 2, a holding element 6 is fixedly arranged on each of the two sides (top and bottom sides) of the printed circuit board 2, through which the opening 4 passes. These holding elements 6 fix the annular coil spring 5 fixed in the axial direction of the opening 4. The holding elements 6 are annular. If the opening 4 is not continuous, and forms, for example, a blind hole, a single retaining element 6 may be sufficient.

FIG. 3 shows an exemplary embodiment of a helical spring 5, as it is used in particular in the embodiments of the invention according to FIG. 1, 2 or FIG. 4, 5. On the one hand, a top view of the eye coil spring 5 (left side of FIG. 3) and a side view of the eye coil spring 5 (right side of FIG. 3) are shown.

As can be seen from FIG. 3, such a helical coil spring 5 consists of a helical spring whose ends are connected to each other, so that it forms an endless or continuous helical spring. The hooped coil spring 5 may for example be exactly annular or oval. In particular, under the action of an external force on the spring 5, however, their shape may also vary. It can also be called a "Canted Coil Spring".

The contact system according to FIG. 4 and FIG. 5 also has a pin-shaped plug 1 and a printed circuit board 2. The plug 1 can also have a round or oval cross-section here in particular.

The printed circuit board 2 is part of a printed circuit board assembly 3. The printed circuit board 2 has an opening 4. The plug 1 is in a plug-in, in Fig. 4 by a Arrow indicated, in the opening 4 can be inserted. As a result, an electrical contact between the connector 1 and the printed circuit board 2 is produced. The opening 4 in the printed circuit board 2 thus serves as a socket for the plug first

The connector 1 is part of a connector assembly 7. The connector assembly 7 has in addition to the plug 1 also has a arranged on the plug 1 ring coil spring 5. This is used for electrical contacting of the plug 1 with another component. In the present case, this is the printed circuit board 2 by way of example. However, any other components can be contacted with the plug 1 or the plug arrangement 7.

The opening 4 can also be a through hole in the printed circuit board 2 here, for example. A longitudinal axis of the plug 1 and the opening 4 is represented by the axis L. For insertion of the plug 1 in the opening 4, these, as shown in Fig. 1, must be aligned or coaxial with each other.

The hooped coil spring 5 is arranged axially fixed on the plug 1 between a front stop 8 in the direction of insertion and a rear stop 9 in the direction of insertion. The stops 8, 9 can for example be formed by a groove in the plug 1 or by extra components, such as circlips. It is envisaged that the rear end 9 in the insertion direction simultaneously serves as a plug-in stop for the plug 1.

In the present case, the stops 8, 9 are formed for the eye coil spring 5 by shoulders on the plug 1. A diameter of the plug 1 in the region of the front shoulder or the local stop 8 is thus smaller than a diameter of the plug 1 in the region of the rear shoulder or of the stop 9 there.

The ring coil spring 5 is now so within the opening of the circuit board 2 radially between the plug 1 and the circuit board 2. Thus, the electrical contact is made via the ring coil spring 5. The front in the direction of insertion stop 8 is located in this state within the opening 4. The rear in the insertion direction stop 9, however, is applied to the circuit board 2 at. He is in this state, therefore, outside the opening 4. He limits on the one hand the insertion of the plug 1 and on the other hand it serves for the axial fixation of the annular coil spring fifth

In order to simplify the electrical contacting between the printed circuit board 2 and the annular coil spring 5, the radial inner wall 4A of the opening 4 can also be coated in an electrically conductive manner. At the latest when the eye coil spring 5 is compressed during insertion of the plug 1 in the opening 4, it applies radially to the inner wall 4A of the opening 4 at. Thus, it is in the inserted state on the one hand to the plug 1 (with a radial inner side of the eye coil spring 5) and on the other hand on the inner wall 4A of the opening 4 (with a radial outer side of the eye coil spring 5). Thus, electric current from the plug via the ring coil spring 5 to the inside of the opening 4, so the circuit board 2, flow here - and vice versa.

REFERENCE CHARACTERS

plug

circuit board

Printed circuit board assembly

Opening, bore

inner wall

Ring coil spring

retaining element

plug assembly

attack

longitudinal axis

Claims

claims

1. contact system for electrical contacting of a printed circuit board (2) with a plug (1), wherein the plug (1) in an opening (4) in the circuit board (2) can be inserted and thereby the electrical contact can be produced, characterized in that

a ring coil spring (5) arranged radially between plug (1) and printed circuit board (2) within the opening (4) of the printed circuit board (2) is provided, via which the electrical contact is made.

2. Contact system according to claim 1, wherein the annular coil spring (5) in the opening (4) of the printed circuit board (2) is arranged fixed.

3. Contact system according to claim 1, wherein the annular coil spring (5) is fixedly arranged on the plug (1).

4. Contact system according to one of the preceding claims, wherein the opening (4) in the printed circuit board (1) is a bore.

5. printed circuit board assembly (3) having a printed circuit board (2) and an opening (4) in the printed circuit board (2) for receiving a plug (1) for electrical contacting of the printed circuit board (2) with the plug (1), characterized in that

a ring coil spring (5) for electrical contacting of the printed circuit board (2) with the plug (1) is arranged fixed in the opening (4) of the printed circuit board (2), that the ring helical spring (5) radially between plug (1) and printed circuit board (2) is located when the plug (1) is inserted into the opening.

6. printed circuit board assembly (3) according to claim 5, wherein a radial inner wall (4A) of the opening (4) is coated electrically conductive.

7. printed circuit board assembly (3) according to any one of claims 5 and 6, with at least one on the circuit board (2) arranged holding element (6) which fixes the ring helical spring (5) in at least one axial direction of the opening (4).

8. printed circuit board assembly (3) according to claim 7, wherein the opening (4) is a through hole and on each of the two sides of the printed circuit board (2) through which the opening (4), a holding element (6) is arranged, wherein the Retaining elements (6) fix the ring coil spring (5) in the axial direction of the opening (4).

9. plug arrangement (7) with a pin-shaped plug (1) for insertion into an opening (4) of a component (2) which is to be contacted with the plug (1) electrical, and with a on the plug (1) arranged ring coil spring (5) for electrical contacting of the plug (1) with the component (2), wherein the annular coil spring (5) between a front in the insertion direction stop (8) and a rear end in the insertion direction stop (9) fixed axially on the plug (1) is, characterized in that

the rear stop in the direction of insertion (9) at the same time serves as a plug-in stop for the plug (1).

10. Plug arrangement (7) according to claim 9, wherein the stops (8, 9) are formed by the shoulder coil spring (5) by shoulders on the plug (1), wherein a diameter of the plug (1) in the region of the shoulder for in Plug-in direction front stop (8) is less than a diameter of the plug (1) in the region of the shoulder for the rear in the direction of insertion (9).