CN113169463B

CN113169463B - Connecting element

Info

Publication number: CN113169463B
Application number: CN201980077935.0A
Authority: CN
Inventors: 汉斯-约瑟夫·克尔曼
Original assignee: Wago Verwaltungs GmbH
Current assignee: Wago Verwaltungs GmbH
Priority date: 2018-11-30
Filing date: 2019-11-28
Publication date: 2024-03-01
Anticipated expiration: 2039-11-28
Also published as: EP3888190B1; WO2020109466A1; CN113169463A; DE102018130533B3; EP3888190A1

Abstract

The invention discloses a wire connection terminal (1), which comprises: an insulating material housing (2), wherein the insulating material housing (2) has a wire introduction opening (3) for introducing an electrical wire and a contact pin introduction opening (4) for introducing a contact pin (5); a busbar (6), wherein the busbar (6) has a contact section (7) which is arranged between the introduced electrical line and the introduced contact pin (5); clamping spring (13) for clamping an electrical line, wherein the clamping spring (13) has a clamping leg (14), a spring bracket (16) and a support leg (17), the clamping leg having a clamping edge (15) oriented toward the contact section (7), wherein the clamping edge (15) and the contact section (7) form a first contact point for the electrical line to be clamped. The busbar (6) has a contact bow (8) connected to the contact section (7), which transitions into a clamping section (9) for clamping the contact pin (5), wherein the clamping section (9) and the contact section (7) of the busbar (6) form a second clamping point, and wherein a holding section (11) extending from the clamping section (9) of the busbar towards the contact section (7) and passing at the contact section (7) protrudes, wherein a support leg (17) of the clamping spring (13) is supported at the holding section (11) of the busbar (6).

Description

Connecting element

Technical Field

The invention relates to a connecting element, comprising:

-an insulating material housing;

wherein the insulating-material housing has a conductor-introducing opening for introducing an electrical conductor, and

-a contact pin introduction opening for introducing a contact pin;

a busbar, wherein the busbar has a contact section arranged between the incoming electrical line and the incoming contact pin;

a clamping spring for contacting an electrical line, wherein the clamping spring has a clamping leg, a spring bow and a support leg, the clamping leg having a clamping edge oriented toward the contact section, wherein the clamping edge and the contact section form a first contact point for the electrical line to be clamped.

Background

DE 10 2007 024 661 A1 describes an electrical connection terminal with a clamping spring, wherein the clamping spring has two clamping spring legs, which are provided for clamping a respective electrical conductor to a busbar part and thus to be connected electrically conductively. The busbar element is U-shaped in order to provide a receiving space for the electrical conductors.

DE 202 10 105u1 describes an electrical connection terminal with a contact insert for a housing of insulating material, into which a clamping spring is suspended. The first contact point is formed by the contact insert and the clamping leg of the clamping spring, while the second contact point is formed by the support leg of the clamping spring and the contact insert, wherein the electrical line is held stationary in the contact point for electrical contact.

DE 102 61 536b4 discloses a contact element, wherein the contact element has two recesses for introducing electrical conductors. The electrical conductors are held fixedly on the contact element by a clamping spring. The clamping springs here each have a clamping section at their ends, wherein the clamping springs are guided through a further opening of the contact element and are thus fixed in their position.

DE 10 2015 107 853 A1 discloses a clamping spring for clamping an electrical line and a contact pin, wherein a busbar element for electrical contact is arranged between the electrical line and the contact pin. The clamping spring has clamping legs which are provided for clamping the electrical conductor to the busbar, wherein the clamping legs extend into the spring bow and the support legs. The support legs are bent parallel to the contact pins in order to clamp the contact pins to the busbar element. The clamping leg and the support leg cooperate such that the busbar part is pressed in the direction of the contact pin when the electrical conductor is engaged and in the direction of the electrical conductor when the contact pin has been inserted.

DE 10 2011 051 536 A1 discloses a connecting element having a housing of insulating material, a busbar, a clamping spring for contacting an electrical line, and a pin contact element for contacting a pin contact, wherein the pin contact element is connected to the busbar via a connecting section and extends parallel to the busbar. The support legs of the clamping springs are supported here on the projecting legs of the busbar.

DE 10 2010 010 262 A1 discloses a plug-in connector having a housing made of insulating material, a busbar and a clamping spring for contacting an electrical line. The insulating-material housing has a contact-pin insertion opening for inserting the contact pin and a conductor insertion opening for inserting the electrical conductor, wherein the busbar is arranged between the electrical conductor to be clamped and the contact pin to be clamped.

Disclosure of Invention

Based on this, it is an object of the invention to achieve an improved connecting element.

The object is achieved by a connecting element having the features of claim 1. Advantageous embodiments are specified in the dependent claims.

It is proposed here that the busbar has a contact bow connected to the contact section, which transitions into a clamping section for contact of the contact pin, wherein the clamping section and the contact section of the busbar form a second contact point and a holding section extending from the clamping section of the busbar toward the contact section and passing at the contact section, wherein the support leg of the clamping spring is supported at the holding section of the busbar.

It is thereby achieved that the conductor is pressed against the contact section of the busbar by means of the clamping leg, which preferably forms the fixed part of the busbar, and the support leg of the clamping spring pulls the contact pin onto the contact section of the busbar via the movable part of the busbar. The contact pin is thereby clamped between the contact section of the busbar and the part of the busbar that is movable relative to the contact section by the force of the clamping spring.

In this way, a compact connecting element can be provided which makes electrical contact between the electrical conductors and the contact pins possible. The busbar is configured to form a second contact point for the contact pin, wherein the busbar interacts with the clamping spring such that the busbar can be used as a clamping connection for the contact pin, wherein the clamping spring participates in the opening and closing of the second contact point for the contact pin indirectly via the support leg of the clamping spring being supported on the holding section of the busbar. The holding section of the busbar is formed in such a way that it can be moved by moving the support leg of the clamping spring. In this way, the second contact point can be opened and closed by displacing the support leg of the clamping spring. The electrical circuit between the connected contact pin and the electrical line is extremely short, since the contact pin and the electrical line are arranged on opposite contact sides of the contact section.

The connecting element may have a conductor insertion slope, which is arranged in the conductor insertion opening upstream of the contact section of the busbar in the conductor insertion direction of the electrical conductor, toward the first contact point. It is also advantageous if the contact section of the busbar has a bead or contact projection on the contact side facing the electrical line and/or the contact pin. This has the advantage that the electrical conductors or the contact pins can be introduced independently of one another into the insulating-material housing under the same conditions, without the electrical conductors and the contact pins affecting one another.

It is also advantageous if the contact sections of the bus bar are arranged in the insulating-material housing in a stationary manner or with limited mobility. The free end of the contact section of the busbar is guided through the first through opening of the holding section of the busbar. However, it is also conceivable that the contact section of the busbar can be held fixedly in the insulating housing by means of a design in the insulating housing, for example a clamping edge. Due to the limited mobility of the contact sections of the bus bar, it is possible to fix the inserted electrical conductors or the inserted contact pins at the contact sections without interacting with the contact sections, so that the bus bar moves within the insulating-material housing. In this way, the electrical leads and/or the contact pins may be reproducibly placed in the insulating-material housing under the same conditions.

Advantageously, the contact webs protrude from the clamping section, wherein the contact webs are designed to introduce and press the contact pin onto the second contact point. This has the advantage that the contact pin can be held optimally securely by the contact webs on the contact section of the busbar in a simple manner, for example by the contact webs being adapted to the design of the contact pin. In this way, a uniform pressure distribution on the contact pin can be achieved, so that a point loading of the contact pin is avoided.

The free ends of the support legs of the clamping springs can be suspended in a second through-opening of the holding section of the busbar, which is delimited by a transverse bar. In this way, a simple support of the support leg on the busbar can be provided, wherein the movable holding section of the busbar is displaced by the support leg of the clamping spring in the direction of the clamping spring and the fixing of the contact pin at the second contact point can be achieved.

Advantageously, the holding section of the busbar protrudes perpendicularly to the clamping section of the busbar in the direction of the contact section towards the support leg. In this way, a compact connecting element (for example in the form of a lever-operated connecting terminal) can be provided, an electrical contact between the contact pin and the electrical line can be achieved, and the space-saving design is made possible in this case.

The connecting element may have an actuating element which is movably inserted into the insulating-material housing, wherein the actuating element is coupled to the clamping spring for opening the first contact point. It is also advantageous if the actuating element is an actuating lever which is pivotally mounted in the insulating-material housing and protrudes from the insulating-material housing.

The actuating element of the connecting element can have an actuating section, wherein the actuating section is arranged laterally to the clamping spring and wherein the actuating contour of the actuating section is operatively connected to the clamping leg and is supported at the contact section. It is also advantageous if the actuating profile has a circumferentially circular or partially circular peg having a V-shaped recess, wherein the actuating section of the clamping leg protrudes into the V-shaped recess.

In this way, an actuating element can be provided which causes the opening and closing of the first contact point by raising or lowering the clamping leg of the clamping spring.

The indefinite article "a" or "an" is to be understood as being such and not construed as a shorthand for a number of words. The insulating-material housing can thus, for example, also have further wire insertion openings, contact pin insertion openings, bus bars and associated clamping springs for multipolar connection elements.

Drawings

The invention is illustrated in detail below by way of example with the aid of the accompanying drawings. The drawings show:

fig. 1 shows a side sectional view of a connecting element;

fig. 2 shows a partial sectional view of the rear side of the connecting element according to fig. 1, with contact pin introduction openings.

Detailed Description

Fig. 1 shows a side sectional view of a connecting element 1 with an insulating-material housing 2, wherein the insulating-material housing 2 has a wire introduction opening 3 for introducing an electrical wire (not shown) and a contact pin introduction opening 4 for introducing a contact pin 5. A busbar 6 is arranged in the insulating-material housing 2 of the connecting element 1, wherein the busbar 6 has a contact section 7 which is arranged between the inserted contact pin 5 and the inserted electrical line (not shown). The busbar 6 has a contact bow 8 connected to the contact section 7, which merges into a socket section 9. It is clear that the socket section 9 and the contact section 7 of the busbar 6 form a second contact point for the contact of the contact pin 5. From the socket section 9, a contact tab 10 protrudes, which is designed to better introduce the contact pin 5 into the second contact point.

It is clear that the wire introduction opening 3 and the contact pin introduction opening 4 are provided on opposite sides of the insulating-material housing 2. However, other arrangements are also conceivable in which the wire introduction opening 3 and the contact pin introduction opening 4 are located, for example, on the same side of the insulating-material housing 2.

A holding section 11, which protrudes orthogonally from the socket section 9 of the busbar 6 in the direction of the contact section 7 and passes at the contact section 7. The holding section 11 is mounted so as to be movable at least in the longitudinal extension thereof. The holding section 11 is delimited in its movement perpendicular to the contact section 7 by an element 24 which dips into the cavity 25.

A clamping spring 13 is arranged in the insulating-material housing 2 of the connecting element 1, wherein the clamping spring 13 has a clamping leg 14 with a clamping edge 15 oriented toward the contact section 7 of the busbar 6. The contact section 7 of the busbar 6 (with the entry ramp and the bead) and the clamping edge 15 of the clamping spring 13 form a first clamping edge for the electrical line to be clamped. The clamping leg 14 transitions into the spring bow 16 and into the support leg 17.

It is clear that the free ends 18 of the support legs 17 of the clamping springs 13 hang in the through-openings of the holding section 11 of the busbar 6, which openings are delimited by the transverse bars 23. The coupling is achieved by the clamping spring 13 being mounted in the second through opening of the holding section 11 of the busbar 6, wherein the holding section 11 of the busbar 6 can be displaced by the spring force of the clamping spring 13, so that the socket section 9 and the projecting contact tab 10 can be pressed against the contact pin 5, which in turn can be pressed against the free end 12 of the contact section 7 of the busbar 6, wherein the contact pin 5 is held fixedly at the second contact point.

It is also clear that a wire insertion ramp 19 is provided in the wire insertion opening 3 of the insulating-material housing 2 upstream of the contact section 7 of the busbar 6 in the wire insertion direction toward the first contact point. By means of such a wire insertion ramp 19, the electrical wires and/or the contact pins 5 can be inserted independently of one another into the insulating-material housing 2 under identical conditions, wherein the electrical wires and/or the contact pins are placed under identical conditions when repeatedly plugged.

The contact section 7 of the busbar 6 can have a bead or contact projection on the contact side facing the electrical line and/or on the contact side facing the contact pin 5, wherein the contact pin 5 and/or the electrical line is located at the contact bead or contact projection during the reinsertion process. By fixing the position of the contact sections 7 of the busbar 6, a change in the position of the contact sections 7 and thus of the beads or contact projections provided at the contact sections 7 is prevented, so that the inserted electrical conductors or the inserted contact pins 5 are located in the insulating-material housing 2 under identical conditions even during repeated plugging processes.

The connecting element 1 has an actuating element 20, wherein the actuating element 20 is a lever which is pivotally mounted in the insulating-material housing 2 and protrudes from the insulating-material housing 2. At the lever, the actuating section 21 is arranged laterally next to the clamping spring 13. The actuating section 21 has an actuating contour which is in operative connection with the clamping leg 14 and the contact section 7. The actuating profile can have a part-circular pin on the circumference, which has a V-shaped recess 22, wherein the actuating section of the clamping leg 14 protrudes into the V-shaped recess 22.

It is clear that by actuating the actuating lever, the actuating section 21 lifts the clamping leg 14 of the clamping spring 13 and thus opens the first contact point for introducing or removing the electrical line.

Fig. 2 shows a partial sectional view of the rear side of the connecting element 1 according to fig. 1, which has contact pin insertion openings 4, wherein a part of the insulating-material housing 2 is cut away for better overview. The contact pin introduction openings 4 of the insulating-material housing 2 for the introduction of the contact pins 5 can be seen.

It is clear that the contact section 7 is guided through a through opening of the holding section 11 for fixing the position of the contact section 7 in the insulating-material housing 2. The contact pin 5 is pressed by the socket section 9 onto the contact section 7, the holding section 11 projecting perpendicularly from the socket section 9 toward the contact section 7 and passing by the contact section 7. It is also clear that the free ends 18 of the support legs 17 of the clamping springs 13 lead through the same through openings of the holding section 11, wherein the second through openings are delimited by the cross bars 23 of the holding section 11. The holding section 11 is supported by its transverse bar 23 on the support leg 17 of the clamping spring 13.

The lever is operatively connected to the clamping leg 14 of the clamping spring 13 via a lever section 21 (not shown) such that the lever is provided for opening and closing the first contact section.

It can also be seen in the rear view of fig. 2 that two conductor/contact pin connection terminals are arranged next to one another in the insulating-material housing 2. In this way, a plurality of wire contact pin pairs may be electrically connected to each other side by side. Here, the number of wire/contact pin connection terminals is not limited to the embodiment. Rather, a large number of conductor/contact pin connection terminals according to the invention are combined into a single device, i.e. into a multipolar connection element.

The figures are to be understood as possible embodiments. Other forms are also contemplated in accordance with the principles of the present invention. Furthermore, the embodiments are not inseparably connected to one another, so that, for example, the implementation of the invention is independent of the embodiment described in detail. Thus, variations in the number of individual elements or the manner of support are contemplated at any time.

List of reference numerals

1. Connecting element

2. Insulating material shell

3. Wire introduction opening

4. Contact pin introduction opening

5. Contact pin

6. Bus bar

7. Contact section

8. Contact bottom

9. Plug section

10. Contact tab

11. Holding section

12. Free end of contact section

13. Clamping spring

14. Clamping leg

15. Clamping edge

16. Spring bow

17. Supporting leg

18. Free ends of the support legs

19. Lead-in ramp

20. Actuating element/lever

21. Manipulation section

22 V-shaped notch

23. Cross bar

24. Element

Claims

1. A connecting element (1) has:

-a housing (2) of insulating material,

wherein the insulating-material housing (2) has a wire-introducing opening (3) for introducing an electrical wire and a contact-pin-introducing opening (4) for introducing a contact pin,

a busbar (6), wherein the busbar (6) has a contact section (7) arranged between the introduced electrical line and the introduced contact pin,

wherein the busbar (6) has a contact bow (8) connected to the contact section (7), which transitions into a socket section (9) for contacting a contact pin, the socket section (9) and the contact section (7) forming a second contact point,

a clamping spring (13) for contacting an electrical line, wherein the clamping spring (13) has a clamping leg (14), a spring bow (16) and a support leg (17), the clamping leg having a clamping edge (15) oriented toward the contact section (7), wherein the clamping edge (15) and the contact section (7) form a first contact point for the electrical line to be clamped,

it is characterized in that the method comprises the steps of,

a holding section (11) extends from the socket section (9) of the busbar (6) toward the contact section (7) and passes by the contact section (7),

-wherein the support leg (17) is supported at the holding section (11) of the busbar (6).

2. The connecting element (1) according to claim 1,

it is characterized in that the method comprises the steps of,

the connecting element (1) has a wire insertion slope (19) which is arranged upstream of the contact section (7) in the wire insertion opening (3) in the wire insertion direction of the electrical wire toward the first contact point.

3. The connecting element (1) according to claim 1 or 2,

it is characterized in that the method comprises the steps of,

the contact section (7) of the busbar (6) has a bead or contact projection on the contact side facing the electrical line and/or the contact pin.

4. The connecting element (1) according to claim 1 or 2,

it is characterized in that the method comprises the steps of,

a contact tab (10) protrudes from the socket section (9) for fixing a contact pin at the second contact point.

5. The connecting element (1) according to claim 1 or 2,

it is characterized in that the method comprises the steps of,

the contact section (7) is arranged in a stationary manner in the insulating-material housing (2).

6. The connecting element (1) according to claim 1 or 2,

it is characterized in that the method comprises the steps of,

the holding section (11) has a first through opening, and the free end of the contact section (7) is guided through the first through opening.

7. The connecting element (1) according to claim 1 or 2,

it is characterized in that the method comprises the steps of,

the free ends of the support legs (17) hang in a second through-opening of the holding section (11) delimited by a transverse bar (23).

8. The connecting element (1) according to claim 1 or 2,

it is characterized in that the method comprises the steps of,

the holding section (11) protrudes perpendicularly to the socket section (9) in the direction of the contact section (7) toward the support leg (17).

9. The connecting element (1) according to claim 1 or 2,

it is characterized in that the method comprises the steps of,

an actuating element (20) is movably inserted into the insulating-material housing (2) and is coupled to the clamping spring (13) in order to open the first contact point.

10. The connecting element (1) according to claim 9,

it is characterized in that the method comprises the steps of,

the actuating element (20) is an actuating lever which is pivotally mounted in the insulating-material housing (2) and protrudes from the insulating-material housing (2).

11. The connecting element (1) according to claim 9,

it is characterized in that the method comprises the steps of,

the actuating element (20) has an actuating section (21), wherein the actuating section (21) is arranged laterally to the clamping spring (13), and wherein an actuating contour of the actuating section (21) is operatively connected to the clamping leg (14) and is supported on the contact section (7).

12. The connecting element (1) according to claim 11,

it is characterized in that the method comprises the steps of,

the actuating profile has a circumferentially circular or partially circular peg.

13. The connecting element (1) according to claim 12,

it is characterized in that the method comprises the steps of,

the pin has a V-shaped recess (22), wherein the actuating section of the clamping leg (14) protrudes into the V-shaped recess (22).

14. The connecting element (1) according to claim 1 or 2,

it is characterized in that the method comprises the steps of,

the free end of the contact section (7) is guided through a first through opening of the holding section (11), the free end of the support leg (17) being suspended in a second through opening of the holding section (11) delimited by a transverse bar (23), wherein the first through opening and the second through opening form a common through opening of the holding section (11).