DE102009014094A1 - Actuating device for a conductor connection - Google Patents

Abstract

Actuating device for a connector (12) and a contact spring (1) fixed in a housing (24) with a connection for an electrical conductor (20) which is pivotable relative to the contact body (12), characterized by a housing in the conductor insertion direction (FIG. = Longitudinal direction 5) longitudinally displaceable, by at least one passage opening (28) for at least one conductor to be connected (20) open carriage (23) with a kinematically coupled to the free end of the clamping arm deflection bevel (25) for pivoting the clamping arm between its rest position and its open position Inserting the conductor (20).

Description

The The invention relates to an actuating device for one Connection of an electrical conductor to a contact element. The Contact element is arranged in a housing. The contact element is from a contact body and a contact spring composed. Located on the contact body in the connected state, the electrical conductor with a stripped End conductive. The contact body is configured in an advantageous embodiment as a stamped and bent part. It is also possible, make it from solid material, for example, it made of solid material to milling.

The Contact spring has at least one relative to the contact body pivotable Contact arm up. The actuator serves for actuation the swiveling contact arm.

The actuator has one first in the case fixed and longitudinally displaceable mounted Sled up. The carriage also forms a housing cover closing a housing opening. The carriage is of at least one passage opening for a to be connected Broken ladder. Conveniently, corresponds to the number of the slide through openings the number of housings to be connected Ladder. At its end facing the interior of the housing carries the carriage a deflection bevel, which kinematically with the free end of the clamping arm of the contact spring is coupled. With the help of the deflection bevel so the clamping arm of Contact spring between its rest position and its open position during insertion of the conductor and, accordingly, between its final assembly position and its open position when loosening to be pivoted by the conductor. The deflection angle lies at the free end of the clamping arm and forms a surface guide with the free end of Clamping arm. As a result of the longitudinal sliding movement of the carriage slides the free end of the clamping arm on the appropriate Guide surfaces of the inclined deflection off and on or closes so the connection for the electrical conductor.

In Advantageous embodiment form the deflection and the Contact arm of the contact spring a cam mechanism.

In Another advantageous embodiment is on the actuator a locking mechanism provided to the carriage in the open position the actuator to keep. In this way it is easily possible, the conductor in the conductor connection introduce and after insertion of the conductor the actuator by loosening the Locking locks again.

In Another advantageous embodiment is a forced operation with a leadership backdrop in the case and spring jaws provided on the carriage as a return drive for the carriage to his starting position.

In Another advantageous embodiment is another in the carriage and housing effective security mechanism provided as a captive for the carriage in the case.

Based the drawing figures is the invention with further details described. Show it:

1 the rear view of an inventive contact spring,

2 the front view of the contact spring according to 1 .

2a the spring region of an unbent contact spring blank,

3 the rear view of an inventive, cranked contact body,

4 the front view of the contact body according to 3 .

5 the composite of the contact spring and the contact body conductor terminal in the rest position,

6 the conductor connection 5 with connected conductor in final assembly position,

7 the conductor connection with attached carriage in the open position of the actuator before inserting the conductor,

8th the conductor connection according to 7 when inserting the conductor,

9 the conductor connection according to 7 in the final assembly position of the connected conductor,

10 an exploded view of the housing with inserted conductor terminal and the carriage to be mounted in the housing,

11 a partially sectioned view of the housing with inserted conductor terminal and inserted carriage analogous to the exploded view in 10 in the rest position of the actuator,

12 the representation of 11 with connected conductor,

13 the rear view of the housing according to arrow XIII in 11 .

14 the front view of the in 11 shown housing according to arrow XIV in 11 showing the rest position of the actuator,

15 a representation according to 14 showing the open position of the actuator.

The contact spring 1 initially has two mutually parallel longitudinal arms 2 on. The longitudinal arms 2 are in the area of their Freiendes vom Querjoch 3 in the transverse direction 4 connected with each other. The longitudinal arms 2 each taper in the direction to the transverse direction 4 orthogonal longitudinal direction 5 in the direction of the cross yoke 3 , The cross yoke 3 has at its at the ends of the longitudinal arms 2 adjacent area a clamping edge 6 trained bottom edge. Above the clamping edge 6 is the cross yoke 3 bent out to the front.

Longitudinal 5 joins the cross yoke 3 opposite ends of the longitudinal arms 2 each an arcuate area 7 a spring arm 8th at. To the arcuate area 7 in turn closes as a bearing plate 9 designed area of the spring arm 8th at. In other words, each spring arm sits down 8th from the bearing plate 9 and the respective arcuate area 7 together. The arched area 7 goes fluently in the longitudinal direction 5 in the associated longitudinal arm 2 above. The arcuate areas 7 open in front of the bearing plate 9 in a V-shaped gusset 60 , To reduce the notch effect of the gusset 60 have the spring arms 8th at their inner edges in each case a circular segment-shaped fillet 61 on. These are each circular segmental fillets 61 with 45 ° connection, which in 2a based on a still unbent blank of a contact spring 1 is shown.

From the the longitudinal arms 2 opposite end of the bearing plate 9 stand on both sides two fork-like projections 10 out. The longitudinal arms 2 , the cross yoke 3 and the gusset 60 in the area of the bearing plate 9 frame the clamping window 11 the contact spring 1 , The longitudinal arms 2 and the cross yoke 3 at the same time form the movable clamping arm of the contact spring 1 ,

The contact body 12 has a longitudinal direction 5 extending contact legs 13 on. The contact leg 13 is by means of a longitudinal direction 5 extending bead 14 stiffened. The contact thigh free 15 is bent to form an insertion bevel. From the contact leg 13 is at the the contact leg free 15 longitudinal 5 opposite end an intermediate leg 16 bent at right angles. From the thigh 16 is in the longitudinal direction 5 again a connecting leg 17 bent. The from the contact leg 13 , the thigh 16 and the connecting leg 17 existing contact bodies 12 thus has a cranked geometry. From the thigh 16 is in extension of the bead 14 longitudinal 5 a jaw 18 bent. From the connecting leg 17 are again two lobes 19 bent, the type of forks from the connecting leg 17 protrude. Below the bent-out Kontaktschenkelfreiendes 15 is on the contact leg 13 an accumulation of material provided to form one in the direction of the contact spring 1 in the assembled state of the conductor terminal projecting contact strip 62 ,

In the assembled state of the conductor connection ( 5 ) passes through the contact legs 13 of the contact body 12 the contact spring 1 in the clamping window 11 , The contact leg 13 runs in the longitudinal direction 5 while the longitudinal arms 2 the contact spring 1 at an acute angle to the longitudinal direction 5 run. The contact spring 1 is on the contact body 12 firmly stored. This is the fork-like projections 10 the bearing plate 9 flat on the two from the connecting leg 17 scalloped lobes 19 on. As an abutment to that of the fork-like projections 10 and the rag 19 formed support serves the from the intermediate leg 16 scalloped jaw 18 , The jaw 18 lies clamped on the bearing plate 9 on.

To connect the conductor 20 becomes the stripped end 21 of the leader 20 with its front side against the bent cross yoke 3 the contact spring 1 longitudinal 5 pushed, with the longitudinal direction 5 is identical to the conductor insertion direction. The stripped end 21 of the leader 20 this can be done on the effective as insertion bevel leg 15 , which is also bent, glide along. The stripped end 21 of the leader 20 continues to slide in the longitudinal direction 5 between the clamping edge 6 of the longitudinal arms 2 and the cross yoke 3 formed clamping arm of the contact spring 1 and the contact strip 62 on the contact leg 13 of the contact body 12 and pivots in this way the clamping arm of the contact spring 1 in the swing direction 22 from the contact leg 13 of the contact body 12 path. In the connection position of the conductor 20 lies the front side of the stripped end 21 of the leader 20 on the thigh 16 of the contact body 12 on, so that the intermediate leg 16 a stop for the conductor 20 formed.

To connect the conductor 20 must its stripped end 21 between the clamping arm of the contact spring 1 and the contact leg 13 of Contact body 12 be spent. In a single-core rigid conductor, this is done automatically by the pivoting away of the clamping arm of the contact spring 1 in the swing direction 22 about as insertion funnel together with the bent cross yoke 3 effective scalloped contact limb-free 15 ,

But is it a ladder? 20 with several individual strands, the conductor connection must first be opened to the stripped end 21 of the leader 20 to be able to introduce into the conductor connection. The carriage is used for this purpose 23 the actuator. The sled 23 is this opposite the contact leg 13 of the contact body 12 longitudinal 5 traversable. The sled 23 indicates at its the interior of the housing 24 facing end a deflection bevel 25 on. The deflection bevel 25 is here designed so that they with their effective surface on the cross yoke 3 the clamping arm of the contact spring 1 is applied. By moving the carriage 23 longitudinal 5 slides the deflection bevel 25 at the cross yoke 3 along, so that at the lower in the rest position of the actuator 26 the insertion slope fitting transverse yoke 3 at the effective surface of the deflection bevel 25 slides along until it reaches the top 27 the deflection bevel 25 has reached. The clamping arm of the contact spring 1 is in pan direction 22 fully swung out when the cross yoke 3 at the top 27 the deflection bevel 25 is applied. This movement show the 11 , the 7 , the 8th and the 9 ,

Starting from 11 the actuator is shown in the rest position. In 11 it can be seen that the lower area 26 the deflection bevel 25 at the cross yoke 3 the clamping arm of the contact spring 1 is applied. By a finger pressure on the slide 23 becomes the sled 23 longitudinal 5 in the interior of the case 24 move into it. As a result of this movement, the clamping arm of the contact spring slides 1 with the cross yoke 3 at the deflection angle 25 along and gets to the bottom area 26 the deflection bevel 25 out of engagement and lies in the in 7 drawn opening position at the top 27 the deflection bevel 25 at.

The sled 23 is in the embodiment of two passage openings 28 longitudinal 5 breached. The leader 20 comes with its stripped end 21 through the passage opening 28 through into the interior of the housing 24 introduced and suggests in its final assembly position with the end face of its stripped end 21 on the thigh 16 of the contact body 12 to what's in 8th is shown. 8th thus shows the open position of the actuator with at the top 27 the deflection bevel 25 adjacent cross yoke 3 and completely inserted stripped end 21 of the leader 20 , The isolated end 21 of the leader 20 lies here with its lateral surface on the contact legs 13 of the contact body 12 flush.

For clamping the conductor 20 becomes the sled 23 longitudinal 5 from the interior of the housing 24 get out of this, like this 9 shows. The cross yoke 3 the clamping arm of the contact spring 1 and the deflection slope 25 on the sledge 23 get out of action. The clamping arm of the contact spring 1 So the arms 2 , and the connecting yoke 3 swing in the direction of pivoting 22 back towards the contact leg 13 of the contact body 12 so that the clamping edge 6 on the clamping arm of the contact spring 1 at the stripped end 21 of the leader 20 is applied and so the stripped end 21 of the leader 20 between himself and the contact leg 13 of the contact body 12 firmly clamped. The stripped end 21 of the leader 20 passes through the clamping arm of the contact spring in this clamping position 1 in between the longitudinal arms 2 released clamping window 11 ,

As an assembly aid when inserting the conductor 20 is on the outside of the case 24 one in the pivoting direction 22 swing-out pawl 29 intended. With the pawl 29 two act on the outside of the carriage 23 molded ratchet teeth 30 together. The ratchet teeth 30 form together with the pawl 29 a Zahnrichtgesperre off. The ratchet teeth 30 each have a guide slope on their underside 31 on. With the guide slope 31 becomes the pawl 29 in the swing direction 22 from the case 24 moved away when the carriage 23 longitudinal 5 towards the interior of the housing 24 is pressed. In the in 7 . 8th and 15 illustrated opening position of the conductor connection engages behind the upper of the two ratchet teeth 30 with its the guide slope 31 turned away at right angles from the carriage 23 projecting blocking surface 32 the upper boundary bracket 33 of the lock window 34 the pawl 29 , This is in the presentation of 15 particularly recognizable.

In contrast, the upper ratchet engages through 30 both in the rest position and in the clamping position of the conductor connection in the longitudinal direction 5 above the lock window 34 arranged rest windows 35 the pawl 29 while the lower ratchet tooth 30 in these positions on the boundary bracket 33 of the lock window 34 in this position is present. Show this 11 . 12 and 14 , The ratchet teeth 30 are in the rest position and the clamping position of the conductor connection so as captive for the carriage 23 effective.

In the event of a failure of the of pawl 29 and the ratchet teeth 30 formed Zahnrichtgesperres is another captive for the slide 23 on the housing 24 intended. At the housing 24 are two housing protrusions 36 formed. To every housing projection 36 joins a flat track 37 at. At the flat guideway 37 slides on the sledge 23 attached fishing hook 38 along when the sled 23 longitudinal 5 is moved. The movement out of the carriage 23 out of the case 24 longitudinal 5 is limited by the fact that the fishing hook 38 in the rest position of the conductor connection and the actuator, the associated housing projection 36 engages what is in 14 is shown particularly well recognizable.

Finally, the actuator with the carriage 23 nor an automatic return mechanism on the method of the carriage 23 from its open position during insertion of the conductor 20 back to the final assembly position according to 6 respectively. 9 respectively. 12 , This is the case 24 on the pawl 29 facing away from the housing side a V-shaped guide slot 39 in the case 24 brought in. The V-shaped guide slot 39 has two facing inner surfaces 40 on. From the sledge 23 stand in the longitudinal direction 5 two pens 41 out. The spring jaws 41 glide with their outer surfaces 42 on the inner surfaces facing them 40 the guide scenery 39 , Due to the V-shape of the guidance 39 be the pens 41 when inserting the carriage 23 longitudinal 5 moved towards each other and so compressed. Will that be out of the ratchet teeth 30 and the pawl 29 existing locking solved such that the upper locking tooth 30 out of engagement with the lock window 34 device, that discharges from the spring jaws 41 The spring-loaded accumulator has its tension. The spring jaws 41 spread against the inner surfaces 40 the guide scenery 39 outward and so move the sled 23 longitudinal 5 out of the case 24 out in his in 12 . 13 . 14 and 11 shown rest position or position with clamped conductor.

From the view of the 11 and 12 is also apparent that the conductor connection shown there and the actuator shown there for opening and closing the conductor connection are particularly well suited for connectors. The socket contact or plug contact of the connector is connected to the conductor connection via the connecting leg 17 conductively connected. From the view of the 11 and 12 also becomes clear that the space requirement of the contact body 12 on the one hand and the contact spring 11 on the other hand in the transverse direction and in the direction between the pawl 29 and the guide scenery 39 is particularly low. This is based on the basic principle of the conductor connection, that of the cross yoke 3 and the two longitudinal arms 2 existing clamping arm of the contact spring 1 and the spring arm 8th longitudinal 5 as it were to switch in succession, the spring arm 8th longitudinal 5 below the terminal space for the conductor 20 is arranged. The terminal space for the conductor 20 is also used for the deflection of the cross yoke 3 and the longitudinal arms 2 existing clamping arm of the contact spring 1 in the swing direction 22 , Since the corresponding installation space in the longitudinal direction 5 beyond the shank 16 as installation space for the conductor 20 or as a pivot space for the contact spring 1 does not need to be used, is the use of the arrangement of the spring arm 8th very space saving. All the more so as next to the spring arm 8th only the connecting leg 17 in the corresponding room in the longitudinal direction 5 below or beyond the intermediate leg 16 must be accommodated.

1

contact spring

2

longitudinal arm

3

crosshead

4

transversely

5

longitudinal direction

6

clamping edge

7

arcuate area

8th

spring arm

9

bearing plate

10

fork-like head Start

11

terminal window

12

Contact body

13

contact legs

14

Beading

15

Contact free arm end

16

intermediate leg

17

connecting leg

18

jaw

19

cloth

20

ladder

21

stripped The End

22

pan direction

23

carriage

24

casing

25

inclined deflection

26

lower Area

27

upper Area

28

Through opening

29

pawl

30

ratchet

31

guide slope

32

blocking surface

33

limiting strap

34

lock window

35

idle windows

36

housing projection

37

guideway

38

hook

39

guide link

40

palm

41

spring-loaded jaw

42

outer surface

60

gore

61

rounding

62

contact strip

Claims (5)

Actuating device for one in a housing ( 24 ) fixed a contact body ( 12 ) and a contact spring ( 1 ) with one opposite the contact body ( 12 ) pivotable clamping arm comprising connector for an electrical conductor ( 20 ), characterized by a longitudinally displaceable in the housing in the conductor insertion direction, of at least one passage opening ( 28 ) for at least one conductor to be connected ( 20 ) broken carriage ( 23 ) with a kinematically coupled to the free end of the clamping arm deflection bevel ( 25 ) for pivoting the clamping arm between its rest position and its open position during insertion or release of the conductor ( 20 ). Actuating device according to claim 1, characterized in that the mutually facing surfaces of the deflection bevel ( 25 ) on the slide ( 23 ) and the opposite to the contact body ( 12 ) curved free end of the clamping arm of the contact spring ( 1 ) slide on each other to form a cam gear. Actuating device according to Claim 1 or 2, characterized by at least one latching tooth pointing outward from a slide outer wall extending in the conductor insertion direction ( 30 ) and by a ratchet tooth ( 30 ) in the open position of the carriage ( 23 ) engaging pawl ( 29 ) on the housing ( 24 ). Actuating device according to one of claims 1 to 3, characterized by two in the conductor insertion direction extending transversely to the conductor insertion direction spring-back spring jaws ( 41 ) on the carriage and by a V-shaped guide ( 39 ) on the housing ( 24 ) such that the outer surfaces ( 40 ) of the spring jaws ( 41 ) on the inner surfaces ( 40 ) of the guidance ( 39 ) abut to form a spring-driven return actuator for the carriage ( 23 ) From its open position back to its rest position. Actuating device according to one of the preceding claims, characterized by at least one housing projection ( 36 ) on the housing ( 24 ) and a housing projection ( 36 ) in the rest position engaging catch hooks ( 38 ) on the carriage outside for fixing the carriage ( 23 ) in the housing ( 24 ).