WO2020200844A1

WO2020200844A1 - Printed circuit board connection terminal

Info

Publication number: WO2020200844A1
Application number: PCT/EP2020/057813
Authority: WO
Inventors: Andreas Schrader
Original assignee: Phoenix Contact Gmbh & Co. Kg
Priority date: 2019-04-02
Filing date: 2020-03-20
Publication date: 2020-10-08
Also published as: CN216389741U; DE102019108563B4; DE102019108563A1

Abstract

The subject matter of the invention is a printed circuit board connection terminal (100) for connecting an electrical conductor (200) to a printed circuit board, comprising a clamping pocket (10) which has a connection space (11) within which the electrical conductor (200) can be connected, a clamping spring (16) which is arranged in the connection space (11) of the clamping pocket (10) and which has a retaining limb (17) and a clamping limb (18), wherein in a clamped position of the clamping limb (18) the conductor (200) which is to be connected is clamped in an electrically contact-forming fashion against a first side wall (13) of the clamping pocket (10), and a solder pin (20) which has at least one solder leg (21) for making contact with the printed circuit board, wherein the solder pin (20) is joined to the clamping pocket (10) by means of a welded connection (22).

Description

PCB connection terminal

The invention relates to a circuit board connection terminal for connecting an electrical conductor to a circuit board, with a clamping pocket which has a

Has connection space, within which the electrical conductor can be connected, with a clamping spring arranged in the connection space of the clamping pocket, which has a retaining leg and a clamping leg, wherein in a clamping position of the clamping leg of the clamping spring, the conductor to be connected is clamped in an electrically contacting manner against a first side wall of the clamping pocket , and with a solder pin which has at least one solder leg for contacting the circuit board.

Such a circuit board connection terminal is described, for example, in DE 10 2007 035 336 B3. The soldering pin is designed in one piece with the clamping pocket, so that the soldering pin is also punched when the clamping pocket is punched. This creates punched edges not only on the clamping pocket but also on the soldering pin, which can negatively affect the soldering process of the soldering pins of the soldering pin on a circuit board.

The invention is therefore based on the object of providing a circuit board connection terminal in which, in particular, the solderability of the soldering pin or the soldering legs of the soldering pin on a circuit board can be improved.

The object is achieved according to the invention with the features of the independent claim. Appropriate configurations and advantageous developments of the invention are specified in the subclaims.

The circuit board connection terminal according to the invention is characterized in that the soldering pin is connected to the clamping pocket by means of a welded connection.

According to the invention, it is now provided that the soldering pin is a component that is formed separately from the clamping pocket and thus separate from the clamping pocket as a component

Individual component can be produced. This enables many different variants of the production of the circuit board connection terminal. For example, it can be provided that the clamping pocket and the soldering pin are connected to one another only after the terminal pocket has been formed and the solder pin has also been finished. But it is also possible that the soldering pin to the Clamp pocket is first connected and only after the connection of the soldering pin to the clamping pocket, the soldering pin is shaped, in particular bent, in its final shape. The soldering pin is connected to the clamping pocket by means of a material connection, in that the soldering pin is welded to the clamping pocket. The

Welded connection between the soldering pin and the clamping pocket enables a particularly secure and firm connection or fastening of the soldering pin to the

Clamp pocket, which cannot be released again. The clamp pocket and solder pin can thus be permanently connected to one another via the welded connection. In the

Training and shaping of the clamping pocket must be separated from it

In the manufacture of the soldering pin, the shape requirements for the soldering pin are not taken into account, so that the soldering pin has sufficient stability and good solderability. The clamping pocket can thus be made relatively thin-walled, so that the clamping pocket and thus the entire printed circuit board connection terminal are in

Division direction can have the smallest possible space requirement with the largest possible cross section of the conductor to be connected. The soldering pin, on the other hand, can be adapted in its dimensions according to the required current-carrying capacity of the soldering pin. This means that the dimensions of both the clamping pocket and the soldering pin can be individually tailored to your requirements in later use in the

PCB connection terminal can be adjusted without the other component being able to influence it. In addition, the soldering pin can be formed independently of the clamping pocket without punched edges, so that particularly good solderability of the soldering pin on the circuit board can be achieved with a secure and secure connection of the soldering pin to the clamping pocket. The

Clamping and thus the electrical contacting of the conductor to be connected takes place here directly on the clamping pocket, so that an additional current bar is not necessary here.

The welded connection can be, for example, a laser welded connection or a resistance welded connection. If the soldering pin is welded to the clamping pocket by means of laser welding or resistance welding, a particularly good welded connection can be achieved that is independent of the

Design and the properties of the surface of the terminal pocket and / or the soldering pin can be done. In the laser welding process, the clamping pocket is welded to the soldering pin by means of a laser, without the need to add additional material. Using the laser welding process, a particularly narrow and slender weld seam shape can be achieved. In addition, a Laser welded joint due to a particularly low thermal distortion. When a resistance weld connection is formed, this is done by an electric current flowing through the connection point. The clamping pocket and the soldering pin are at least in the area of the joints until the

The welding temperature is heated and can be welded at their point of contact under the action of a force through solidification of the melt, through diffusion or in the solid phase.

It is preferably provided that the soldering pin on the first side wall of the

Clamp pocket can be tied, the solder pin on one of the

Terminal space facing away side surface of the first side wall can be welded. The welding of the soldering pin to the clamping pocket can thus be formed on one and the same side wall of the clamping pocket as the clamping of the conductor to be connected to the clamping pocket. Because welding and clamping can take place on one and the same side wall of the clamping pocket, the entire arrangement and thus the circuit board connecting terminal can be designed to be particularly small and space-saving. The clamping of the

The conductor to be connected to the first side wall is preferably carried out on a side surface of the first side wall facing in the direction of the connection space, so that the conductor to be connected and the soldering pin can be clamped or formed on two opposite side surfaces of the first side wall of the clamping pocket.

In order to be able to further increase the solderability of the soldering pin or of the at least one solder leg of the soldering pin, the soldering pin is preferably made from an electrically conductive material which can be tin-plated. By tinning, the electrically conductive material of the soldering pin can be provided with a tin coating.

In addition to the improved solderability through the tin coating, improved corrosion protection for the solder pin can also be achieved.

It is also possible that the clamping pocket can be formed from an electrically conductive material which can be tin-plated. If the material of the clamping pocket is provided with a tin coating, the corrosion resistance of the clamping pocket can in particular be improved. The clamping pocket is preferably formed from a stamped and bent part which can be tinned after the stamping and bending process. But it is also possible that the clamping pocket before the stamping and bending process is already tinned, so that a pre-tinned tape can be used for the shaping of the clamping pocket, which can be punched and bent for the shaping of the clamping pocket.

It is possible that the clamping pocket is made of a different material than the soldering pin. The material of the clamping pocket can thus be a material that differs from the material of the soldering pin. Because the soldering pin and the clamping pocket are made from different materials, the properties of the

Clamping pocket and the soldering pin can be set and selected individually depending on the material formed. For example, a material can be selected for the clamping pocket which is characterized by particularly high strength. For example, a material can be selected for the soldering pin which can be distinguished by particularly good electrical conductivity.

Because the clamping pocket and the soldering pin are now two separate components, the clamping pocket and the soldering pin can have different dimensions, in particular different thicknesses. The soldering pin can thus have a thickness which is greater or less than a thickness of the first side wall

Clamp pocket can be. For example, the soldering pin can have a greater thickness than the first side wall of the clamping pocket can be thick. Due to the greater thickness of the soldering pin, the soldering pin can be particularly dimensionally stable. The clamping pocket or the first side wall of the clamping pocket, on the other hand, can be designed to be particularly thin-walled in order to require as little space as possible in the direction of division. Depending on needs and requirements, the dimensions and in particular the thicknesses of the soldering pin and the clamping pocket can thus be designed and set separately from one another.

The shape and configuration of the soldering pin can be designed individually depending on the corresponding requirements, so that a high degree of flexibility can be achieved here. For example, the soldering pin in the form of a flat wire, a

Square wire, a round wire or a flat strip can be formed.

It is also possible for the soldering pin to be designed as a THR pin (THR = Through Hole Reflow) or as an SMD pin (SMD = Surface Mounted Device). In order to be able to hold the clamping spring in the desired position in the connection space, the clamping pocket can have a second side wall opposite the first side wall, on which the retaining leg of the clamping spring can be held. The retaining leg can preferably be arranged to run parallel to the second side wall of the clamping pocket, so that the retaining leg can rest flat against the second side wall. By means of the retaining leg, the

Support the clamping spring against the clamping pocket. The retaining leg can be clamped against the second side wall of the clamping pocket by the spring force of the clamping spring and thus held. However, it is also possible to fasten the retaining leg to the second side wall of the clamping pocket by additional fastening means and thus to hold it.

In order to be able to further increase the functionality of the circuit board connection terminal, the clamping pocket can have a third side wall which is arranged perpendicularly to the first side wall and which can form a conductor protection. For this purpose, the third side wall is preferably arranged transversely to the direction in which the conductor is inserted into the connection space. The third side wall can delimit the connection space in the direction in which the conductor is inserted into the connection space, so that the conductor can be prevented from being inserted too far beyond the connection space.

The invention is explained in more detail below with reference to the attached drawings using preferred embodiments.

Show it:

1 shows a schematic representation of a circuit board connection terminal

according to the invention before connecting the soldering pin with the

Clamping pocket of the PCB connection terminal,

FIG. 2 is a schematic representation of that shown in FIG

PCB connection terminal with the solder pin and the terminal pocket in a connected state,

FIG. 3 is a schematic representation of that shown in FIG

PCB connection terminal with a connected electrical conductor, FIGS. 4a-4e show several schematic representations of solder pins of the circuit board connection terminal shown in FIGS

Design forms.

FIG. 1 shows a circuit board connection terminal 100 for connecting an electrical conductor 200, as is shown in FIG. 3.

The printed circuit board connection terminal 100 has a clamping pocket 10 which forms a connection space 11 within which the conductor 200 is connected.

The clamping pocket 10 has a main wall 12 as well as a first side wall 13, a second side wall 14 and a third side wall 15. The main wall 12 and the three side walls 13, 14, 15 delimit the connection space 11. The three side walls 13, 14, 15 are each arranged at a right angle to the main wall 12. The three side walls 13, 14, 15 are each connected in one piece to the main wall 12. The three side walls 13, 14, 15 are preferably not connected to one another. The first side wall 13 and the second side wall 14 are arranged to run parallel to one another. The third side wall 15 runs transversely and thus perpendicular to the first side wall 13 and also to the second side wall 14.

A clamping spring 16 is arranged in the connection space 11. The clamping spring 16 is designed as a leg spring. The clamping spring 16 has a retaining leg 17, a clamping leg 18 and an arcuate section 19 via which the retaining leg 17 and the clamping leg 18 are connected to one another.

By means of the clamping leg 18, the conductor 200 introduced into the connection space 11 is clamped against the first side wall 13 of the clamping pocket 10 in the clamping position of the clamping leg 18, as shown in FIG. 3. The conductor 200 to be connected is thus clamped directly against the clamping pocket 10, so that an additional current bar is not required.

The clamping spring 16 is held in the connection space 11 via its holding leg 17, which is supported against the second side wall 14 of the clamping pocket 10. The holding leg 17 lies flat against the second side wall 14 of the clamping pocket 10. The third side wall 15 of the clamping pocket 10 forms a conductor penetration protection in the conductor insertion direction R, so that the conductor 200 can be prevented from being pushed in beyond the connection space 11. The third side wall 15 extends for this purpose transversely to the conductor insertion direction R.

In order to be able to make contact with a circuit board (not shown here), the circuit board connection terminal 100 also has a solder pin 20. The soldering pin 20 shown in FIGS. 1 to 3 has two solder pins 21, by means of which contact can be made with a circuit board.

As can be seen in FIG. 1, the soldering pin 20 is designed as a separate component from the clamping pocket 10, so that the soldering pin 20 and the clamping pocket 10 are each completely manufactured and designed before the soldering pin 20 is connected to the clamping pocket 10 . The soldering pin 20 is connected to the clamping pocket 10 via a material connection by the soldering pin 20 being attached to the clamping pocket 10

is welded and therewith in the connected state, as shown in FIGS. 2 and 3, a weld connection 22 is formed between the soldering pin 20 and the clamping pocket 10. The weld connection 22 can, for example, as

Laser welded connection or be designed as a resistance welded connection.

The connection of the soldering pin 20 to the clamping pocket 10 takes place via the first

Side wall 13 of the clamping pocket 10, against which the conductor 200 to be connected is also clamped. The soldering pin 20 is on one of the connection space 11

facing away side surface 23 of the first side wall 13 is welded. The conductor 200 to be connected is clamped on a side surface 24 of the first side wall 13 pointing in the direction of the connection space 11. The connection of the soldering pin 20 and the clamping of the conductor 200 on the first side wall 13 is thus carried out on two opposite side surfaces 23, 24 of the first side wall 13.

Both the clamping pocket 10 and the soldering pin 20 are preferably formed from an electrical material, both of which are preferably tin-plated.

As can be seen in FIGS. 1 to 3, the soldering pin 20 has a thickness D _L which is greater than the thickness D _{s of} the first side wall 13 of the clamping pocket 10. The side wall 13 and thus the entire clamping pocket 10 can therefore be particularly thin-walled be formed, whereas the solder pin 20 can have better dimensional stability due to its thicker design.

In the embodiment shown in FIGS. 1 to 3, the soldering pin 20 is in the form of a

Square wire formed.

The soldering pin 20 can have different shapes and configurations, as it is shown by way of example in FIGS. 4a to 4e, because it is designed as a component separate from the clamping pocket 10, which component is produced independently of the clamping pocket 10.

As can be seen in FIGS. 4a and 4b, the solder pins 21 of the solder pins 20 can be of different lengths. Furthermore, the soldering pin 20 can also have only one soldering leg 21, as can be seen in FIGS. 4c and 4d.

In the configurations shown in FIGS. 4a to 4d, the soldering pin 20 is designed as a THR pin.

4e shows the soldering pin 20 as an SMD pin, which has two solder pins 21.

By welding the soldering pins 20 to the respective clamping pocket 10, a wide variety of shapes of soldering pins 20 can be materially connected to the respective clamping pocket 10 and used so that the respective soldering pin 20 can be selected individually, regardless of the design of the clamping pocket 10, depending on the intended use .

List of reference symbols

100 PCB connection terminal

10 clamping pocket

11 Terminal compartment

12 main wall

13 First side wall

14 Second side wall

15 Third side wall

16 spring clip

17 retaining legs

18 clamp legs

19 Arched Section

20 solder pin

21 solder pins

22 welded joint

23 side face

24 side face 200 conductors

D _L diameter solder pin

D _s diameter of the first side wall

R conductor entry direction

Claims

Expectations

1. PCB connection terminal (100) for connecting an electrical conductor (200) to a circuit board, with

a clamping pocket (10) which has a connection space (11) within which the electrical conductor (200) can be connected,

one arranged in the connection space (11) of the clamping pocket (10)

Clamping spring (16) which has a retaining leg (17) and a clamping leg (18), the clamping spring in a clamping position of the clamping leg (18)

(16) the conductor (200) to be connected against a first side wall (13) of the

Clamping pocket (10) is clamped in an electrically contacting manner, and

a soldering pin (20) which has at least one soldering leg (21) for contacting the circuit board,

characterized in that the soldering pin (20) is connected to the clamping pocket (10) by means of a welded connection (22).

2. printed circuit board connection terminal (100) according to claim 1, characterized in that the welded connection (22) is a laser welded connection or a resistance welded connection.

3. printed circuit board connection terminal (100) according to claim 1 or 2, characterized

characterized in that the soldering pin (20) is connected to the first side wall (13) of the clamping pocket (10), the soldering pin (20) being welded to a side surface (23) of the first side wall (13) facing away from the connection space (11) .

4. printed circuit board connection terminal (100) according to one of claims 1 to 3, characterized in that the soldering pin (20) is formed from an electrically conductive material which is tin-plated.

5. circuit board connection terminal (100) according to any one of claims 1 to 4, characterized in that the clamping pocket (10) is formed from an electrically conductive material which is tin-plated.

6. printed circuit board connection terminal (100) according to claim 5, characterized in that the material of the clamping pocket (10) is a material different from the material of the soldering pin (20). 7. circuit board connection terminal (100) according to any one of claims 1 to 6, characterized in that the soldering pin (20) has a thickness (D _L ) which is greater or less than a thickness (D _s ) of the first side wall (13) of the clamping pocket (10 ) is. 8. PCB connection terminal (100) according to one of claims 1 to 7, characterized in that the soldering pin (20) in the form of a flat wire, one

Square wire, a round wire or a flat band is formed.

9. circuit board connection terminal (100) according to any one of claims 1 to 8, characterized in that the clamping pocket (10) has one of the first side wall (13) opposite second side wall (14) on which the

Holding leg (17) of the clamping spring (16) is held.

10. printed circuit board connection terminal (100) according to any one of claims 1 to 9, characterized in that the clamping pocket (10) is perpendicular to the first

Side wall (13) arranged third side wall (15) which forms a conductor penetration protection.