DE102014100354A1 - Electrical connection terminal - Google Patents

Abstract

An electrical connection terminal comprising: a housing having at least one conductor insertion opening, a bus bar arranged in the housing for receiving a conductor inserted through the conductor insertion opening, an actuating element which can be brought from a first position to a second position is mounted on the housing, - a spring element, which cooperates with the actuating element, to be brought into a closed position and in an open position, and - a detent for the spring element, which has a detent position for the spring element in its closed position, - Wherein the detent has a guide contour and the spring element at least one engaging in the guide contour locking projection.

Description

The invention relates to an electrical connection terminal which has a housing with at least one conductor insertion opening, a conductor rail arranged in the housing for receiving a conductor inserted through the conductor insertion opening and an actuating element. The actuator is mounted on the housing to be moved from a first position to a second position. Further, the electrical terminal has a spring member which cooperates with the actuator to be moved to a closed position and an open position.

From the DE 10 2008 039 868 A1 is an electrical terminal with a clamping spring, with a metal part and with a clamping spring and the metal part receiving and at least one Leitereinführöffnung having housing known. The clamping spring has a clamping leg, an actuating leg and a back connecting the two legs. The clamping leg forms with the metal part a clamping point for a to be connected, stripped conductor. The clamping spring is pivotable in the housing or mounted on the metal part, that the clamping spring can be moved from an open position to a closed position. The inserted through the conductor insertion, stripped electrical conductor is inserted in the open position of the clamping spring and clamped electrically conductive in the closed position of the clamping spring between one end of the clamping leg and the metal part. In the known electrical terminal, an actuating element is pivotably mounted in the housing such that the actuating element can be moved from a first position to a second position. The clamping spring is pivoted by the pivoting actuator from its open position to its closed position and vice versa. The actuating leg of the clamping spring has a hook-shaped bent retaining portion which engages with a projecting holding portion of the metal part in the closed position, so that the clamping spring is fixed in the closed position.

In the known electrical terminal and other electrical terminals occur clearly audible locking and Entriegelungsgeräusche, which are undesirable especially for large to be clamped conductor cross-sections and can be misinterpreted as a damage to the terminal.

The invention has for its object to provide an electrical terminal, are less pronounced in the locking and Entriegelungsgeräusche even with large conductor cross-sections.

The object of the invention is achieved by an electrical terminal with the features of claim 1. Advantageous embodiments form the subject of the dependent claims.

The electrical terminal according to the invention has a housing, a busbar, an actuating element, a spring element and a detent. The housing has at least one conductor insertion opening through which an electrical conductor with a stripped end can be inserted into the terminal to be clamped in this. In the housing of the electrical terminal, a bus bar is provided which receives an electrical conductor inserted through the conductor insertion opening to make electrical contact therewith. Depending on the configuration of the electrical connection terminal, a second busbar for a further electrical conductor or other connections for electrical contacting can be provided on the busbar. The electrical connection terminal further has an actuating element, which can be moved from a first position to a second position, and vice versa. For this purpose, the actuating element is mounted on or in the housing. Furthermore, a spring element is provided, which cooperates with the actuating element to be brought into its closed position. Further, a detent for the spring element is provided in the electrical terminal, which has a detent position for the spring element in its closed position. According to the invention, the detent has a guide contour and the spring element engages in the guide contour locking projection. The electrical connection terminal is based on the recognition that a free-running spring element leads to loud locking and Entriegelungsgeräuschen the electrical terminals. By using a guide contour, in which engages a latching projection, a free swinging of the spring element is prevented and a strong noise remains. The guide contour of the detent leads and / or limits the movement of the locking projection in the detent.

In a preferred embodiment, the detent is designed such that by bringing the actuating element from its first position to its second position, the spring element from the open position coming arrested locked in its closed position and released from its latched, closed position to its open position. Both in the movement into the latched position and in the movement out of the latched position, the spring element engages with its locking projection in the guide contour of the Latching and does not oscillate freely or uncontrollably.

In a preferred embodiment, the spring element on a clamping leg, which is formed in the closed position of the spring element for clamping engagement with a conductor arranged in the busbar. Preferably, the conductor is stripped, so that an electrical contact between the conductor and busbar can be made.

In a further preferred embodiment of the electrical connection terminal, the guide contour is fixedly arranged in the housing. The latching projection is arranged on the retaining limb of the spring element, wherein the latching projection is in the region of the latched position of the spring element in engagement with the guide contour. The arrangement of the latching projection on the retaining leg of the spring element, preferably the end-side arrangement, offers in particular the advantage that vibrations of the spring element are limited by the free coming of the clamping leg of the conductor to be clamped by the guided in the guide contour holding leg.

In a preferred embodiment, the guide contour has a contour path and a heart-shaped detent island, in which the detent projection rests in the closed position of the spring element. The heart-shaped detent is positioned in the contour path and is sometimes referred to as the heart curve. In this case, the latching island has a recess or depression, which allows to position the locking projection on the latching island. By re-actuation of the locking projection is pushed out of its detent position on the detent island and initially remains in its contour path. The re-actuation brings then the locking projection again in its locking position on the latching island. There is thus a kind of push-push mechanism for the engagement of the spring element.

For a controlled movement of the spring element, it is helpful if the spring element has a return portion, which cooperates with the housing and biases the spring element in its open position. The return portion causes the spring element is also in its latched position under tension, which ensures a reliable locking especially when positioning in the latching island.

In a further preferred embodiment, the spring element is pivotally mounted in the housing. To be particularly advantageous, an embodiment of the actuating element has proven with two by an actuating nose separate contact surfaces. By the actuating lug, the spring element is released from its detent position and the dissolved spring element is subsequent to one of the contact surfaces. Preferably, the spring element is located at a movement out of the detent position on a different contact surface than during a movement into the detent position.

In a preferred embodiment, the actuating element on a tool holder, which allows attachment of an elongated tool for pivoting the actuating element.

A preferred embodiment of the invention will be explained in more detail with reference to FIGS. Show it:

1 3 is a perspective view of two terminals arranged opposite each other in a common housing, which is partially opened;

2 a view from the side with cut busbar,

3a C the movement of the spring element from its open to the locked position,

4a -E the movement of the spring element from its latched position to the open position,

5a C adjusting the spring element according to the movement of the 3a to 3c in a perspective view, and

6a C the adjustment of the spring element according to the 4a to 4e in a perspective view.

1 shows an electrical connection terminal 10 with a partially cut housing 12 , which on two opposite sides conductor insertion openings 14a . 14b has. On the case 12 stored is a busbar 16 which has a U-shaped cross-section. The busbar 16 is in the case 12 aligned such that a through one of the conductor insertion 14a . 14b inserted electrical conductor (not shown) in the busbar 16 can occur. The busbar 16 is made of metal and serves for electrical contacting of the conductor.

In the illustrated embodiment of an electrical connection terminal 10 can be an electrically conductive contact between two conductors passing through the conductor insertion 14a . 14b are inserted into the terminal. The invention is by no means limited to electrical terminals of this type. Rather, also electrical terminals with adjacent insertion, such as from the DE 10 2008 039 868 A1 be known, provided. In principle, it is also possible to provide an electrical terminal which has only a single conductor insertion opening 14a has and at the contacted by an inserted conductor busbar 16 is in communication with electrical contacts on the housing.

The illustrated embodiment is, as well as in 2 to recognize, with respect to the terminals of the electrical conductor related components formed symmetrically. projections 18 on the housing 12 for connecting the terminal with a holder or a rail (not shown) may be formed asymmetrically.

The structure of the terminal according to the invention is in 2 shown. An actuator 20 is on one in the case 12 trained journal 22 pivoted. The actuator 20 has a tool holder 24 (see. 1 ). The actuator 20 owns an operating nose 26 and a first contact surface 28 and a second contact surface 30 , The tool holder 24 is not on the trunnion 22 aligned, so that an eccentric pivoting movement of the actuating element 20 and in particular the contact surfaces 28 . 30 and the operating nose 26 can be trained.

For a better overview in the figures, the electrical terminal 10 explained with its clamping mechanism for the electrical conductor by means of a mechanism, without pointing out each time that correspondingly formed elements can also be provided for the clamping of a second conductor.

The spring element 34 is on one in the case 12 trained spring pin 32 pivoted. In the illustrated embodiment, the spring element 34 from a first spring 36 , a second spring 38 and a third spring 40 , Each of the feathers 36 . 38 . 40 has a clamping leg 42 , a curved holding section 44 and a holding leg 46 (see. 5a ). In 5a -C is an example of the first spring 36 shown. As in particular in 2 can be seen, have the clamping legs 42 the springs 36 . 38 . 40 a different length to different sized conductor cross sections safely in the busbar 16 to be able to clamp. The third spring 40 has the longest clamping leg 42 and thus clamps conductors with the smallest conductor cross-section. The feathers 36 . 38 . 40 are in their holding sections 44 on top of each other on the spring pin 32 arranged. The holding thighs 46 the springs 36 . 38 . 40 that with the actuator 20 interact, lie flat on each other.

The first spring 36 has a holding leg 46 , which at its end has a bent portion 48 with laterally projecting latching projections 50 . 74 has (see also 5a -C and 6a c).

That with the locking projection 50 cooperating locking element 52 is in 2 to recognize in a view from the outside. A second, with the locking projection 74 cooperating locking element 52 is not shown. The locking element 52 has a slightly elongated shape and is in the power rail 16 fixedly arranged. For this purpose, the locking element 52 via a mounting pin 54 in a corresponding opening of the busbar 16 used. At its to the bottom of the power rail 16 pointing end is the locking element 52 with a lead 56 fitted. The busbar 16 has in the region of the locking element 52 an opening 58 so that the inside of the power rail 16 facing flat side of the locking element 52 accessible from the inside.

The locking element 52 owns on its to the inside of the busbar 16 pointing flat side a guide contour 60 , The guide contour 60 has a resting island in its center 62 in heart shape. The detent island 62 has a detent recess 64 at their to the bottom of the busbar 16 pointing page. Surrounded is the detent island 62 from a contour path 66 going out through a jetty 68 is limited. On the rest position 64 opposite side has the bridge 68 a nose-shaped protrusion 70 , The detent island 62 with their rest position 64 and the contour path 66 with its limiting footbridge 68 are dimensioned such that the latching projections 50 . 74 on the holding leg 46 the feather 36 engage in this and through the actuator 20 can be moved by this.

In the 3a to 3c as well as the 4a to 4e is the operation of the terminal according to the invention 10 shown step by step. For a better overview of the spring element 34 only the first spring 36 with her bent section 48 and her locking projection 50 shown. Clearly visible in the figures, the reset section 72 that with the retaining thigh 46 cooperates to the first spring 36 in the open position, such as in 3a and 4e presented to harness.

The 3a to 3c show stepwise the adjustment of the spring element 34 in its closed position, in the one in the terminal 10 received conductor (not shown) in the busbar 16 is clamped. The actuator 20 is partially opened at the beginning of the actuation process, so that the actuating lug 26 or the first contact surface 28 on the holding leg 46 is applied. In 3a has the holding thigh 46 already partly from the contact surface 28 solved and removed.

In 4e , which is a completely open state of the terminal 10 shows, is the holding leg 46 flat at the first contact surface 28 at. By pivoting the actuating element 20 in direction V presses the operating lug 26 the holding leg 46 within the leadership contour 60 down, at the Rastinsel 62 past. 3b shows the lowest position in which in the contour path 66 the locking projection 50 at the projection 70 of the footbridge 68 is applied. Here beats the locking projection 50 in its lowest position on the projection 70 at. If the movement of the actuating element continues 20 in the direction of V, the actuating nose gets 26 out of engagement with the retaining leg 46 , so that under the action of the reset section 72 the locking projection 50 in the rest position 64 in the resting island 62 arrives. This is the second contact surface 30 of the actuating element 20 approximately flat on the holding leg 46 at. In this position, the actuator closes 20 flush with the housing 12 from and the spring element 34 is in the rest position 64 in the resting island 62 securely locked. In the rest position 64 is the clamping leg 42 pivoted into a clamped position. This has the entire spring 36 around the spring pin 32 turned.

The 4a to 4e gradually release the spring from its latched position. 4a equals to 3c in which the retaining thigh 46 at the second contact surface 30 abuts and the clamping leg 42 of the spring element 34 one in the power rail 16 arranged conductor is stuck.

4b shows how by a pivoting movement V 'of the actuating element 20 the actuating nose 26 the locking projection 50 from his rest position 64 pushes. As with the asymmetrical design of the detent island 62 to recognize, is the necessary stroke to the locking projection 50 from the rest position 64 to lift out, smaller than the necessary stroke, which is provided to the latching projection 50 in the rest position 64 to lift into it. The operating nose 26 presses the locking projection 50 in the leadership contour 60 again to the lowest point 71 (see. 4c ). Subsequently, an opposite side of the actuating nose passes 26 in contact with the holding leg 46 , so that by the contact of the holding leg 46 with the first contact surface 28 the locking projection 50 at the detention island 62 over in the contour path 66 can be performed.

4d shows the bent section 48 of the holding thigh 46 when leaving the locking element 52 , In 4d is the actuator 20 still been given away, so that the holding leg 46 free from the locking element 52 is and it can be the holding thigh 46 definitely from the locking element 52 escape. It is crucial that in the region of its locking the spring element 34 into the leadership contour 60 is immersed and in the contour path 66 intervenes.

The 5a to 5c show in a perspective view the movement of the locking projection 50 along its contour path 66 in the leadership contour 60 of the locking element 52 , In the 5 and 6 is on the opposite side of the curved section 48 a second locking projection 74 intended. The second locking projection 74 can, as well as the locking projection 50 , in a locking element 52 and a corresponding contour path 66 be guided so that the first spring 36 safely guided on both sides.

The 5a to 5c show how the actuating nose 26 the holding leg 46 press down until the locking projection 50 at the projection 70 comes to a stop. By the actuating nose 26 by a continued pivotal movement of the actuating element 20 is further pivoted, the second contact surface passes 30 in contact with the holding leg 46 so that the latching projection 50 out of the lead 70 away and into the rest position 64 at the detention island 62 dips.

The 6a to 6c show the reverse operation, the 6a essentially the 5c equivalent. By pivoting the actuating element 20 , presses the operating nose 26 the locking projection 50 from his rest position 64 in the lowest point 71 of the contour path 66 , By the actuating nose 26 from their position 6b is further pivoted, increasingly reaches the first contact surface 28 in contact with the holding leg 46 , As a result, the locking projection moves 50 at the detention island 62 past. This movement can be achieved by a reset section 72 (not shown in the 5 and 6 ) are additionally supported.

LIST OF REFERENCE NUMBERS

10

 terminal

12

 casing

14a, b

 Conductor insertion opening

16

 conductor rail

18

 projections

20

 actuator

22

 pivot

24

 tool holder

26

 actuating nose

28

 1. contact surface

30

 2. Contact surface

32

 spring pins

34

 spring element

35

 latching

36

 1st spring

38

 2nd spring

40

 3. spring

42

 clamping leg

44

 holding section

46

 holding leg

48

 curved section

50

 catch projection

52

 locking element

54

 fastening pins

56

 head Start

58

 perforation

60

 guide contour

62

 Rest island

64

 detent position

66

 contour path

68

 web

70

 head Start

71

 deepest point

72

 Returning section

74

 2. locking projection

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

• DE 102008039868 A1 [0002, 0022]

Claims (9)

Electrical connection terminal ( 10 ), comprising: - a housing ( 12 ), the at least one conductor insertion opening ( 14a . 14b ), - a busbar ( 16 ) in the housing ( 12 ) for receiving a through the Leitereinführöffnung ( 14a . 14b ) introduced conductor, - an actuating element ( 20 ), which can be brought from a first position to a second position on the housing ( 12 ), - a spring element ( 34 ), which with the actuating element ( 20 ) cooperates to be brought into a closed position and into an open position, and - a detent ( 35 ) for the spring element ( 34 ), which is a detent position ( 64 ) for the spring element ( 34 ) in its closed position, - wherein the detent ( 35 ) a guide contour ( 60 ) and the spring element ( 34 ) at least one in the guide contour ( 60 ) engaging latching projection ( 50 . 74 ) having. Electrical connection terminal ( 10 ) according to claim 1, characterized in that the detent ( 35 ) is designed such that by the movement of the actuating element ( 20 ) from its first position to a second position, the spring element ( 34 ) is latched from the open position in a closed position and released from its latched, closed position to its open position. Electrical connection terminal ( 10 ) according to claim 1 or 2, characterized in that the spring element ( 34 ) a clamping leg ( 42 ), which in the closed position of the spring element ( 34 ) to the clamping system to one in the busbar ( 16 ) arranged conductor is formed. Electrical connection terminal ( 10 ) according to one of claims 1 to 3, characterized in that the guide contour ( 60 ) is arranged fixed to the housing and the latching projection ( 50 ) on a holding leg ( 46 ) of the spring element ( 34 ) is arranged, wherein the latching projection ( 50 ) near his rest position ( 64 ) into the guiding contour ( 60 immersed). Electrical connection terminal ( 10 ) according to one of claims 1 to 4, characterized in that the guide contour ( 60 ) a contour path ( 66 ) and a heart-shaped detent island ( 62 ), in which the latching projection ( 50 ) in the closed position of the spring element ( 34 ) rest. Electrical connection terminal ( 10 ) according to one of claims 1 to 5, characterized in that the spring element ( 34 ) a reset section ( 72 ), which is connected to the housing ( 12 ) and the spring element ( 34 ) in its open position. Electrical connection terminal ( 10 ) according to one of claims 1 to 6, characterized in that the spring element ( 34 ) pivotable on the housing ( 12 ) is stored. Electrical connection terminal ( 10 ) according to one of claims 1 to 7, characterized in that the actuating element ( 20 ) a first contact surface ( 28 ) and one by an actuating nose ( 26 ) separate second contact surface ( 30 ), wherein the actuating nose ( 26 ) the spring element ( 34 ) from its rest position ( 64 ) and the dissolved spring element ( 34 ) at one of the contact surfaces ( 28 . 30 ) is present. Electrical connection terminal ( 10 ) according to one of claims 1 to 8, characterized in that the actuating element ( 20 ) a tool holder ( 24 ), an attachment of an elongate tool for the actuating element ( 20 ) allowed.

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