CN109560436A - Electric connector - Google Patents

Abstract

A kind of electric connector being configured to engagement two or more wire and cable disclosed herein.The connector includes the busbar and fastening spring accommodated inside the shell.The connector further includes one electric wire carrier being pivotably attached in the lever and the receiving wire and cable of the shell.When the lever is moved to final position from initial position, the lever engages the electric wire carrier and pushes the electric wire carrier forward.When the lever is in the initial position, the slope on the electric wire carrier engages the fastening spring and pushes the fastening spring far from the busbar.When the lever is in the final position, the slope is detached from the fastening spring, and the fastening spring engages the cable, so that it is guaranteed that the cable is contacted with the busbar.

Description

Electric connector

Technical field

Present invention relates in general to electric connectors, and more specifically to the electricity for the paired cable that is configured to splice Connector.

Background technique

Spring force connects terminal in a variety of forms it is known that for example conductor connects terminal, terminal box, terminal plate, or is mounted on Electrical equipment, automobile, in automation equipment to be used for Industry Control or building automation.

1213791 B1 of european patent number EP discloses a kind of electric connector comprising cage tension spring, the cage Power spring includes self-supporting execution lever.This execution lever is after being rotatably installed on bent busbar section.

102008060282 A1 of German patent application DE discloses a kind of spring terminal, can be without using for conductance It is executed in the case where the tool of body, wherein execution lever is suspended in the recess in the stationary limb of cage tension spring, and benefit Cage tension spring is horizontally through at least one side branch guidance execution lever.

102008052626 B4 of German patent DE describes a kind of connection terminal comprising clamping is bonded on two sides Camber member around spring, execution lever are hinged on the camber member.

2001086 B1 of european patent number EP discloses a kind of no screw connection terminal comprising cage tension spring, wherein Execution lever is suspended in the supported flexure portion of busbar, and the supported flexure portion is behind the spring bending portion of cage tension spring Face.Execution lever is bonded on around busbar and is rested on two sides on the execution section of cage tension spring.

104885303 A of China Patent Publication No. discloses a kind of spring force terminal connection comprising busbar is opened in cage The terminal spring and executive component of power form of springs, the executive component are displaceably installed to act on terminal spring Execution section on, so that end point can be opened and closed.Supporting arm is extended through from the direction of busbar positioned at terminal The slit executed in section in section and/or positioned at terminal spring.The section arrangement for extending through slit of supporting arm is in place In region between the transverse edge of terminal spring and the supporting element of executive component.

For this background, it is still desirable to which electric connector has being electrically connected for the improvement between the cable spliced by electric connector It connects and the improved holding of the cable in electric connector.

Institute's main topic of discussion in background section is not answered only because it refers in background section and is assumed existing Technology.Similarly, the associated problem of theme refer in background section or with background section should not be assumed previously It is recognized in the prior art.Theme in background section only indicates distinct methods, these methods itself are also possible to invent.

Summary of the invention

An embodiment according to the present invention provides a kind of electric connector for being configured to that wire and cable is electrically interconnected.Electricity Connector includes: plane busbar, has the first main surface and second main surface opposite with the first main surface；And it clamps Spring has the pedestal section contacted with the first main surface of busbar, the attachment section extended from pedestal section, connecting attached Connect the spring bending section of section, and the pinch zones adjoining spring bending section and extending towards the second main surface of busbar Section.Electric connector further includes electric wire carrier, and wire and cable is arranged in the electric wire carrier.Electric wire carrier limits tiltedly on front end Slope.Electric connector further include: shell limits cavity, and busbar, fastening spring and electric wire carrier are arranged in the cavity； And lever, it is pivotably attached to shell.When lever is moved to final position from initial position, lever engages electric wire and carries Body and forward promotion electric wire carrier.When lever is in initial position, slope gripper section, to push clamping section Far from busbar.When lever is in final position, slope is detached from clamping section and clamping section engages wire and cable, thus Ensure that wire and cable is contacted with the second main surface of busbar.

Lever can be attached to shell by the first pillar and be attached to electric wire carrier by the second pillar, and second pillar is set It sets in the ungulate groove limited by electric wire carrier.When lever is moved to final position from initial position, the second pillar passes through Ungulate groove, to push electric wire carrier forward in the shell.

Optionally, lever can limit sector gear, when lever is moved in final position from initial position, the sector Gear is engaged with the rack gear limited by electric wire carrier, to push electric wire carrier forward in the shell.

Lever can optionally limit sector gear, and the sector gear is engaged with the rack gear limited by electric wire carrier, lead to This engagement is crossed, when lever is moved to final position from initial position, lever engagement electric wire carrier and in the shell to being pushed forward Dynamic electric wire carrier.

Retainer when lever is in final position, in the rear part of the engageable electric wire carrier of lever.When lever is from first When beginning position is moved to final position, lever preferably moves through the arc greater than 135 °.When lever is moved to from initial position When final position, it is highly preferred that the mobile arc for passing through about 180 ° of lever.The preceding part on slope can have nonreentrant surface, and slope Rear part can have concave surface.Busbar can limit the tongue longitudinally extended.In that case, clamping section limits recessed Mouthful, and tongue is arranged in recess.

Electric connector can be configured to that a pair of of wire and cable is electrically interconnected.Electric connector may include a pair of of fastening spring, described Fastening spring respectively have the pedestal section contacted with the first main surface of busbar, from pedestal section extend attachment section, Adjoin attachment section spring bending section, and adjoin spring bending section and towards the second main surface of busbar extend Clamping section.Electric connector may also include that a pair of of electric wire carrier, and one in the pair of wire and cable is arranged in the electric wire In carrier；And a pair of of lever, it is pivotably attached to shell.Each lever engages one in the pair of electric wire carrier It is a.

Detailed description of the invention

It now will by example and with reference to the accompanying drawings to describe the present invention, in which:

Fig. 1 is the perspective view of the electric connector of embodiment according to the present invention；

Fig. 2 is the decomposition perspective view of the electric connector of Fig. 1 of embodiment according to the present invention；

Fig. 3 is that the side sectional view of the electric connector of Fig. 1 of embodiment according to the present invention, wherein lever and electric wire carry Body is in initial position；

Fig. 4 A be embodiment according to the present invention, Fig. 1 in the initial position of Fig. 3 electric connector electric wire electricity Cable, electric wire carrier, busbar and fastening spring isolation perspective view；

Fig. 4 B be embodiment according to the present invention, Fig. 1 in the initial position of Fig. 3 electric connector electric wire electricity The isolation perspective view of cable, busbar and fastening spring；

Fig. 5 is that the side sectional view of the electric connector of Fig. 1 of embodiment according to the present invention, wherein lever and electric wire carry Body is in middle position；

Fig. 6 A be embodiment according to the present invention, Fig. 1 in the middle position of Fig. 5 electric connector electric wire electricity Cable, electric wire carrier, busbar and fastening spring isolation perspective view；

Fig. 6 B be embodiment according to the present invention, Fig. 1 in the middle position of Fig. 5 electric connector electric wire electricity The isolation perspective view of cable, busbar and fastening spring；

Fig. 7 is that the side sectional view of the electric connector of Fig. 1 of embodiment according to the present invention, wherein lever and electric wire carry Body is in final position；

Fig. 8 A be embodiment according to the present invention, Fig. 1 in the final position of Fig. 7 electric connector electric wire electricity Cable, electric wire carrier, busbar and fastening spring isolation perspective view；

Fig. 8 B be embodiment according to the present invention, Fig. 1 in the final position of Fig. 7 electric connector electric wire electricity The isolation perspective view of cable, busbar and fastening spring；

Fig. 9 A be embodiment according to the present invention, Fig. 1 in unassembled situation electric connector busbar and The isolation perspective view of fastening spring；

Fig. 9 B be embodiment according to the present invention, Fig. 1 in assembling electric connector busbar and folder The isolation perspective view of tight spring；

Figure 10 is the perspective view of the electric connector of another embodiment according to the present invention.

Specific embodiment

A kind of electric connector for being configured to that two or more wire and cables are electrically interconnected disclosed herein.Connector includes holding The busbar and a pair of of fastening spring received inside the shell.When fastening spring applies spring force to wire and cable, each clamping bullet The free end of spring is configured to ensure that wire and cable is contacted with busbar.

Connector further includes lever, and the lever is pivotably attached to shell and accommodates the electric wire carrier of wire and cable. When lever is moved to final plant closure position from initial open position, lever shifts electric wire carrier in shell onto.On electric wire carrier Slope lift fastening spring, until electric wire insertion shell in until, and then allow fastening spring trolley wire cable, from And wire and cable is fixed to busbar.

Fig. 1 to 9B shows the first non-limiting embodiment or embodiment of electric coupler component 10, the electric connector Component 10 is designed to two or more the wire and cables 12 that are electrically interconnected or splice.Connector assembly 10 includes that setting is outer in insulation Busbar 14, a pair of of fastening spring 16 and a pair of of lever 18 in shell 20.Wire and cable 12 is electrically interconnected by busbar 14, it is described Busbar 14 is formed by the conductive material of such as copper alloy.

Each of fastening spring 16 keeps each of wire and cable 12 to contact with the top surface 22 of busbar 14, As in Fig. 8 B best seen from.Wire and cable 12 is set using electric wire carrier 24, and the electric wire carrier 24 is contained in shell 20 Cavity 26 in.When the initial open position 28 shown in Fig. 3 of lever 18 is moved to final plant closure position 30 shown in fig. 7 When, lever 18 is configured to move electric wire carrier 24 longitudinally in cavity 26 with wire and cable 12.When electric wire carrier 24 exists When being moved in forward direction 32 in shell 20,34 gripper of convex portions on the slope 36 on the front end 38 of electric wire carrier 24 Spring 16 so that fastening spring 16 be pushed up, and makes it far from from busbar 14, as shown in Figure 6A and 6B, to allow Wire and cable 12 is inserted between fastening spring 16 and busbar 14.As used herein, forward direction 32 is parallel to the vertical of shell 20 Axis and wire and cable 12 be inserted into cavity pocket of outer cover 26 in direction on.As used herein, backward directions with forward direction On 32 opposite directions.When by being further inserted into lever 18 by electric wire carrier 24 towards closed position 30 is further mobile When in shell 20, fastening spring 16 engages the concave part 40 on slope 36, as shown in Figure 8A and 8B, to allow fastening spring 16 move down and trolley wire cable 12 towards busbar 14, so that wire and cable 12 is fixed to busbar 14.

Fastening spring 16 is integrally formed and is preferably formed by conductive material, but can be envisaged that fastening spring 16 is led by non- The embodiment that electric material is formed.Fastening spring 16 has pedestal section 42, the bottom table of the pedestal section 42 and busbar 14 Face 44 contacts.Fastening spring 16 has L shape attachment section 46, and the L shape attachment section 46 is integrally attached to pedestal section 42 And extend from the top surface of pedestal section 42.When fastening spring 16 extends farther from pedestal section 42, fastening spring 16 The arc spring curved section 48 with attachment section adjacent positioned is limited, the arc spring curved section 48 is configured to generate The most of spring force applied by fastening spring 16.Fastening spring 16 further includes the clamping section 50 for adjoining attachment section, described The top surface 22 of clamping section 50 towards busbar 14 extends.Fastening spring 16 applies clamping force in clamping section 50, described Clamping section 50 is configured to ensure that wire and cable 12 is contacted with the top surface 22 of busbar 14.

As shown in figure 1 best seen from each lever 18 includes a pair of lever arms 52, and the lever arm 52 is in substantially parallel relationship to shell 20 longitudinal axis X orientation.Lever arm 52 is separated from each other and is interconnected by the cross bar 54 generally perpendicular to lever arm 52.Each thick stick Lever arm 52 is by being pivotably attached to shell 20 from the first pillar 56 of the outwardly extending general cylindrical of lever arm 52, and described One pillar 56 receives in the circular socket 58 limited by shell 20.Lever arm 18 is substantially round by what is extended internally from lever arm 52 Cylindrical second pillar 60 is further attached to electric wire carrier 24, and second pillar 60 is received in the outer surface of electric wire carrier 24 In ungulate or horseshoe shaped recess 62 in.

When lever 18 is moved to cross bar 54 from cross bar 54 close to the open position 28 of the front end of shell 20 in backward directions When close to the closed position 30 of wire and cable 12, the second pillar 60 passes through ungulate groove 62, to promote in forward direction 32 Electric wire carrier 24.When lever 18 is moved to closed position 30 from open position 28, the mobile arc by being greater than 135 ° of lever 18, Preferably pass through about 180 ° of arc.As used herein, " about 180 ° " are meant between 165 ° and 195 °.

As shown in Figure 9A and 9B, busbar 14 limits a pair of of tongue 64, and the tongue 64 is in forward direction 32 Extend from the main body 66 of the horizontal orientation of busbar 14 is longitudinal.When lever 18 is in open position 28, fastening spring 50 from Recess 68 is limited by end, and tongue 64 is arranged in recess 68, among clamping section 50 and pedestal section 42, and When lever 18 is in closed position 30, wire and cable 12 is arranged in recess 68, in fastening spring 16 and tongue 64 Between.

Figure 10 shows another non-limiting embodiment of connector assembly 10.In this embodiment, lever arm 52 Including sector gear 70, the sector gear 70 engages the rack gear 72 on electric wire carrier 24, thus in lever 18 from open position 28 when being moved to closed position 30, and electric wire carrier 24 is moved in the cavity 26 of shell 20.It is electric wire carrier 24, slope 36, outer Shell 20, busbar 14 and fastening spring 16 are all substantially equivalent to those of previous description in this embodiment.

Connector assembly can be formed by the following method.

In the first step, shell 20 is provided, and the first pillar of lever 18 is inserted into the socket in shell 20.

In the second step, above there is the flattened rectangular metal sheet of recess 68 to form clamping bullet at one end by punching press Spring 16.Then make the bending of fastening spring 16 to form pedestal section 42, attachment section, spring bending section and clamping section 50. The free end of clamping section 50 limits recess 68.This process is repeated for the second fastening spring 16.

In third step, being formed by punching press flat metal sheet material has lateral main body and two tongues extended forward 64 busbar 14.

In four steps, tongue 64 is placed in recess 68, among clamping section 50 and pedestal section 42.

It, will be in the ungulate groove 62 of the second pillar insertion electric wire carrier 24 of lever arm 52 in the 5th step.Optionally, Engage the sector gear 70 of lever arm 52 with the rack gear 72 of electric wire carrier 24.

In the 6th step, wire and cable 12 is inserted into electric wire carrier 24.

In the 7th step, lever 18 is made to be moved to closed position 30 from open position 28, so that electric wire carrier 24 be made to exist It is moved forward in shell 20.When electric wire carrier 24 moves forward in cavity pocket of outer cover 26, before the convex surface on electric wire carrier slope 36 Part contacts fastening spring 16 and pushes up clamping part.When electric wire carrier 24 further moves in cavity pocket of outer cover 26 When, electric wire carrier slope 36 concave surface rear portion tap touching fastening spring 16, and spring section by clamping part downwards and with electricity Line cable 12 contacts.

The embodiment of connector assembly shown in Fig. 1 to Figure 10, which has, is connected to the two of busbar by a pair of of fastening spring Root wire and cable.The alternate embodiment of connector assembly can have two on busbar by the pressing of the same fastening spring Wire and cable.The other alternate embodiment of connector assembly may include being attached to confluence by three or more fastening springs Three or more wire and cables of item or the individual wires cable that busbar is even attached to by single spring.

Although shown implementation exemplifies two independently operable levers, it is contemplated that for example being coordinated by public cross bar Ground starts other embodiments of the lever.Other embodiments can have the public lever arm between lever.

Other alternate embodiment may include electric connector, the electric connector have shell it is on opposite sides, For being inserted into the opening of wire and cable, rather than the opening as shown in Fig. 1 to Figure 10 on certain side of shell.

Therefore it provides the electric coupler component for two or more the wire and cables that can be used to interconnect or splice.Connector group Part can ensure that the good electrical connection of cable to each other, and can ensure that good retentivity of the cable to connector assembly.

Although preferred embodiment according to the present invention describes the present invention, the present invention is not intended to be so limited, And it is only restricted in the degree described in following claims.In addition, the use of term first, second etc. is not offered as appointing What sequence of importance, on the contrary, term first, second etc. are used to distinguish an element with another element.In addition, term one A, a kind of etc. use is not offered as the limitation to quantity, on the contrary, indicating that there are the projects mentioned by least one.In addition, all Such as top, lower part direction term does not indicate any specific orientation, on the contrary, term top, lower part etc. be used to by an element with Another element distinguishes and establishes the relationship between various elements in position.

Claims (10)

1. a kind of electric connector for being configured to that wire and cable is electrically interconnected comprising:

Plane busbar has the first main surface and second main surface opposite with first main surface；

Fastening spring has the pedestal section contacted with first main surface of the busbar, from the pedestal section The attachment section of extension, the spring bending section for adjoining the attachment section and the connecting spring bending section and direction The clamping section that second main surface of the busbar extends；

Electric wire carrier, the wire and cable are arranged in the electric wire carrier, and the electric wire carrier limits slope on front end；

Shell, limits cavity, and the busbar, the fastening spring and the electric wire carrier are arranged in the cavity；With And

Lever is pivotably attached to the shell, wherein when the lever is moved to final position from initial position, institute It states lever to engage the electric wire carrier and push the electric wire carrier forward in the housing, wherein when the lever is described When in initial position, the slope engages the clamping section, thus push the clamping section far from the busbar, and Wherein when the lever is in the final position, the slope is detached from the clamping section and the clamping section engages The wire and cable, so that it is guaranteed that the wire and cable is contacted with second main surface of the busbar.

2. electric connector according to claim 1, wherein the lever is attached to the shell, and its by the first pillar Described in lever the electric wire carrier is attached to by the second pillar, second pillar is arranged in be limited by the electric wire carrier In ungulate groove.

3. electric connector according to claim 2, wherein when the lever be moved to from the initial position it is described final When position, second pillar passes through the ungulate groove, to push the electric wire carrier forward in the housing.

4. electric connector according to claim 1, wherein the lever limits sector gear, the sector gear with by institute State the rack gear engagement of electric wire carrier restriction.

5. electric connector according to any one of the preceding claims, wherein when the lever is in the final position When, the lever engages the retainer in the rear part of the electric wire carrier.

6. electric connector according to any one of the preceding claims, wherein when the lever is mobile from the initial position When to the final position, the lever is mobile to be passed through and is greater than 135 ° of arc.

7. electric connector according to claim 6, wherein when the lever be moved to from the initial position it is described final When position, the mobile arc for passing through about 180 ° of the lever.

8. electric connector according to any one of the preceding claims, wherein the preceding part on the slope has nonreentrant surface, And the rear part on the slope has concave surface.

9. electric connector according to any one of the preceding claims, wherein the busbar limits the ligule longitudinally extended Object, wherein the clamping section limits recess, and wherein the tongue is arranged in the recess.

10. electric connector according to any one of the preceding claims, wherein the electric connector is configured to be electrically interconnected A pair of of wire and cable, wherein the electric connector includes a pair of of fastening spring, the fastening spring respectively has and the confluence The pedestal section of first main surface contact of item, adjoins institute at the attachment section extended from the pedestal section It states the spring bending section of attachment section and adjoins the spring bending section and towards described in the busbar The clamping section that second main surface extends, wherein the electric connector includes a pair of of electric wire carrier and a pair of of lever, it is described One in a pair of of wire and cable is arranged in the electric wire carrier, and the lever is pivotably attached to the shell, wherein Each lever engages one in the pair of electric wire carrier.