DE202010017272U1 - The connector assembly - Google Patents

Abstract

Connector arrangement for contacting a conductor (10), with a receiving element (12) for receiving a stripped section (14) of the conductor (10) to be contacted and a fork-shaped contact element (18) for contacting the stripped section (14) of the conductor (10) , wherein the receiving element (12) encloses the stripped section (14) of the conductor (10) inserted into the receiving element (12), in a contacting state the fork-shaped contact element (18) is at least partially inserted into the receiving element (12) and the fork-shaped one Contact element (18) at least partially surrounds the stripped section (14) of the conductor (10) inserted into the receiving element (12).

Description

The invention relates to a connector assembly for contacting a conductor.

Connector assemblies are commonly used to contact two electrical conductors together. A major cost factor in the current solutions usually elaborate metal parts, by means of which the electrical connection between two electrical conductors is made. To avoid this problem, it is known to dispense in one of the two connector parts on metallic components in order to contact one of the conductors directly. Solutions are known in which by means of a cutting contact a conductor is contacted, after previously the insulation of the conductor was severed by the cutting contact. A disadvantage of this solution is that a separation and connection of this connection of a cutting contact with a conductor with a high expenditure of force, usually by using an additional tool, is connected. In addition, a multiple connection of the conductor is only possible if the cable has been shortened to remove the already used contact area, which has become unusable by the cutting of the insulation.

The object of the invention is therefore to provide a connector assembly for contacting a conductor, by means of which a multiple connection of a conductor to one and the same location is possible and also the necessary forces for connecting or for contacting can be reduced.

The object is achieved by the features of claim 1. Advantageous embodiments of the invention are specified in the dependent claims.

The connector assembly according to the invention for contacting a conductor has a receiving element for receiving a stripped portion of the conductor to be contacted and a fork-shaped contact element for contacting the stripped portion of the conductor, wherein the receiving element encloses the inserted into the receiving element stripped portion of the conductor, in a contacting state the fork-shaped contact element is at least partially inserted into the receiving element and the fork-shaped contact element at least partially surrounds the stripped portion of the conductor inserted into the receiving element.

The connector assembly according to the invention is suitable both for contacting solid conductors and for contacting flexible conductors. The connector assembly is characterized in that prior to the actual contacting of the conductor of the conductor is introduced with a stripped portion along its longitudinal surface in a receiving element. The receiving element is preferably sleeve-shaped and has a first end portion with an insertion region, via which the stripped portion can be introduced into the receiving element, and a closed second end portion opposite the insertion region. The receiving element is arranged in the inserted state of the conductor as a kind of housing to the stripped portion of the conductor. Preferably, the receiving element is formed of a non-conductive material, preferably of a plastic material. For the actual contacting of the conductor, a fork-shaped contact element is introduced into the receiving element in such a way that it at least partially surrounds the stripped section of the conductor, thereby realizing a contact between the fork-shaped contact element and the stripped section of the conductor. The contact element preferably surrounds the stripped section in such a way that the contact element with its fork-shaped end sections is guided along the stripped section to the right and left and contacts the stripped section preferably at these two side areas to the right and left. The fork-shaped contact element is preferably formed of an electrically conductive material. Characterized in that prior to contacting the conductor initially a portion of the conductor is stripped and the conductor is introduced with this stripped portion in a receiving element, the conductor receives by the inclusion in the receiving element, in particular at its stripped portion, at the area where the Contacting to take place, an additional stability, which is particularly advantageous for flexible conductors. In addition, characterized in that the receiving element encloses the stripped portion of the conductor, the conductor with its stripped portion touch-proof and waterproof disposed in the receiving element, so that the receiving element can serve as protection against environmental influences, in particular for the unprotected stripped portion of the inserted conductor. The fork-shaped contact element is advantageously not formed as a cutting element, which must first cut through the insulation of the conductor before contacting. Due to the fact that the conductor to be contacted is already stripped in a desired section to be contacted prior to contact with the contact element, a contacting by means of the contact element can be effected by applying a lower contact force than is required with cutting contacts, since severing the insulation of the to be contacted conductor during the actual contacting by the contact element in the inventive solution is no longer necessary. As a result, the force required when connecting and disconnecting the contacting in the solution according to the invention is substantially lower than is the case with the use of cutting contacts. In addition, the fact that for contacting the conductor this must not be severed in the region of its isolation by the cutting contacts first, a multiple connection of the conductor in the region of the already stripped portion of the conductor is possible because the conductor is not damaged during the contact itself and the Head has a defined area at which the contact is to take place, which can also be reused in subsequent contacting operations. By means of the connector assembly according to the invention thus a particularly secure and easier contacting of both a solid and a flexible conductor is possible, in addition, a touch-protected and moisture-proof contacting is possible. In addition, the connector assembly according to the invention is characterized by a particularly cost-effective design.

According to an advantageous embodiment of the invention, the receiving element has an opening, via which the fork-shaped contact element is at least partially insertable into the receiving element, wherein a sealing element is provided in the region of the opening. Through the opening a simple and targeted insertion of the contact element in the receiving element is possible in order to realize a targeted contacting of the conductor in the receiving element can. The opening preferably corresponds to the contour of the region of the fork-shaped contact element, which is inserted into the receiving element, so that a targeted and secure guidance of the fork-shaped contact element into the receiving element can be realized. An opening is preferably provided when the fork-shaped contact element is substantially completely inserted into the receiving element. Furthermore, it is also possible that two openings are provided, via which in each case only the two end sections of the fork-shaped contact element can be introduced into the receiving element. Preferably, the opening or the openings are groove-shaped. To protect against the ingress of moisture and / or dirt into the receiving element, a sealing element is preferably provided in the region of the opening. The sealing element is in the contacting state, that is, in the state in which the contact element at least partially surrounds the stripped portion of the conductor, preferably in the region between the wall of the opening of the receiving element and the inserted fork-shaped contact element arranged in the receiving element, so preferably in contacting state is formed no or only a small gap between the inserted contact element and the opening or the wall of the opening.

The receiving member further preferably has a bore into which the stripped portion of the conductor is inserted in the contacting state, wherein the inner diameter of the bore substantially corresponds to the outer diameter of the stripped portion of the conductor. The bore is preferably in the form of a blind bore, which allows insertion of the stripped portion of the conductor over the insertion area at the first end portion of the receiving element in the receiving element. Characterized in that the inner diameter of the bore substantially corresponds to the outer diameter of the inserted stripped portion of the conductor, the stripped portion, as soon as it is introduced into the bore, can be imparted stability by the receiving element surrounding the stripped portion, so that the bore or the Receiving element such as a kind of protective layer is disposed around the stripped portion, whereby a safer and improved contact can be achieved, which is particularly advantageous in fine-wire conductors, since a bending of the conductor can be prevented during contacting. By the exact guidance of the conductor or the stripped portion of the conductor in the bore of the conductor or the stripped portion of the conductor when contacting with the contact element optimally adapted, preferably round shape maintained, in particular the twist of the stripped portion of the conductor is not changed or canceled when contacting with the fork-shaped contact element.

Further, it is preferably provided that a securing element is provided in the transition region between the receiving element and the introduced into the receiving element to be contacted conductor. The securing element is preferably arranged on the receiving element at its first end portion in the insertion region of the receiving element, so that as soon as the conductor is inserted with its stripped portion in the receiving element, the securing element can be actuated after insertion of the conductor, for example by tightening the securing element such that the fuse element covers a portion of the outer peripheral surface of the conductor, in particular a portion of the outer peripheral surface in a non-stripped portion of the conductor, so that the outer peripheral surface of the conductor is at least partially enclosed in this area by the fuse element. The securing element preferably serves, on the one hand, to secure the inserted conductor to the receiving element so that it does not unintentionally come out of the holder Can solve receiving element. Further, the fuse element preferably serves as a shield against moisture and dirt to prevent moisture or dirt from entering the receiving member via the lead-in area. The fuse element can be configured, for example, as a kind of union nut. The fuse element itself may additionally have a seal, which preferably surrounds the outer peripheral surface of the conductor in order to be able to realize a particularly secure shielding against moisture and dirt.

According to a further advantageous embodiment of the invention, the receiving element can be positioned in a guide element, wherein the receiving element by means of the guide member is movable relative to the fork-shaped contact element. The positioning of the receiving element in the guide element is preferably carried out as soon as the conductor to be contacted is introduced into the receiving element, so that the receiving element can be used together with the conductor in the guide element. The guide element may also be sleeve-shaped, so that the guide element surrounds the receiving element along its outer circumferential surface. As a result, the guide element can additionally serve as a shield against dirt and moisture. The guide element preferably also has an opening, preferably a slot-shaped opening for the passage of the fork-shaped contact element, wherein the opening of the guide element is preferably formed in the inserted state of the receiving element in the guide element congruent with the opening on the receiving element. Furthermore, it is also possible that the guide element has two openings. Together with the guide member, the receiving member is moved relative to the fork-shaped contact member to contact the inserted into the receiving element stripped portion of the conductor with the fork-shaped contact element. The guide element allows targeted guidance of the receiving element in order to achieve a targeted and secure contact. The guide element is preferably arranged in a defined position to the fork-shaped contact element, so that only by a movement of the guide element arranged in the guide element receiving element or introduced into the receiving element to be contacted conductor of a non-contacting state in a contacting state and vice versa is convertible.

The guide element is preferably mounted pivotably or linearly movable relative to the fork-shaped contact element. By a pivoting movement or a linear movement of the guide element relative to the contact element introduced into the guide element receiving element or the conductor to be contacted can be selectively transferred from a non-contacting state to the contacting state and vice versa, so that a targeted guided contact is possible. In addition, this is a particularly simple handling of the connector assembly feasible. The linear movement is preferably carried out by the guide element is movable up and down relative to the contact element, so that the guide element can engage in the contact element and can be lifted from this in turn. In the pivotable mounting, the guide element is preferably mounted on a fixed pivot point and pivotable about this pivot point, wherein at a pivoting movement of the guide element, the fork-shaped contact element in the opening of the guide element and in the opening of the arranged in the guide element receiving element can dive. The specific position can thus be, for example, the position in which a contact between the stripped portion of the conductor and the fork-shaped contact element takes place or also, for example, a position of the guide element in which the receiving element can be inserted into the guide element and just no contact takes place ,

Further, it is preferably provided that a locking means for fixing the receiving element and / or the guide element is provided in a certain position. By means of the locking element, an unwanted separation under load of the conductor to be contacted can be prevented, so that a secure contact can be ensured. The locking means is preferably designed such that the fixation can be solved by means of the locking means only with a special tool. The latching means preferably engages as soon as contacting of the contact element with the conductor takes place.

The fork-shaped contact element is preferably arranged on a printed circuit board or on a solar cell. If the contact element is arranged on a printed circuit board, a simple contacting of a conductor to a printed circuit board can be realized by means of the plug connector arrangement according to the invention. If the fork-shaped contact element is arranged on a solar cell, then the connector arrangement according to the invention can be used for example in a solar system.

The invention will be explained in more detail below with reference to the accompanying drawings with reference to a preferred embodiment.

Show it:

1 a schematic representation of the connector assembly according to the invention in a non-contacting state;

2 a schematic representation of in 1 shown connector assembly according to the invention in a non-contacting state, wherein the receiving element and the guide element are shown in a partially sectioned view; and

3 a schematic sectional view of in 1 shown connector assembly according to the invention in a contacting state.

1 - 3 schematically show an embodiment of the connector assembly according to the invention in a side view, wherein a conductor 10 in, in 2 to be recognized receiving element 12 is introduced, in which case only a stripped section 14 of the leader 10 in the receiving element 12 is introduced, wherein the receiving element 12 along with the imported ladder 10 in a guide element 16 is arranged. To contact the conductor 10 is also a fork-shaped contact element 18 provided, which on a circuit board 20 is arranged.

At the in 1 and 2 As shown, the connector assembly is shown in a non-contacting state, that is, no contacting of the fork-shaped contact element 18 with the stripped section 14 of the leader 10 is realized. In 1 and 2 is the guide element 16 arranged in an open position, in which the receiving element 12 together with the in the receiving element 12 introduced conductor 10 in the guide element 16 can be introduced or from the guide element 16 can be removed again.

As in 2 and 3 to recognize, is the receiving element 12 sleeve-shaped and has at a first end portion 22 an insertion area over which the stripped portion 14 of the leader 10 in the receiving element 12 is introduced. At the second end portion opposite the lead-in area 24 of the receiving element 12 is the receiving element 12 closed trained. In the receiving element 12 itself is a hole 26 formed, in which the stripped section 14 of the leader 10 is introduced. The inner diameter of the hole 26 corresponds essentially to the outer diameter of the stripped section 14 of the leader 10 ,

Between the transition region of the receiving element 12 and the leader 10 is a security element 28 provided in the form of a union nut, which in the receiving element 12 introduced conductor 10 for example, from accidental slipping out of the receiving element 12 secures and at the same time can serve as protection against dirt and moisture. The fuse element 28 In this case, preferably covers the receiving element 12 at its first end portion 22 and a portion of the outer peripheral surface of the conductor 10 in an unstripped section of the conductor 10 so that the bore 26 of the receiving element 12 by means of the securing element 28 is tightly closed.

The receiving element 12 is together with the introduced leader 10 in the guide element 16 introduced, wherein the guide element 16 itself also sleeve-shaped and a recess 30 in which the receiving element 12 is introduced. Between the receiving element 12 and the guide element 16 is a sealing element 32 , preferably in the form of an O-ring, which forms a seal between the outer region of the receiving element 12 and the interior of the recess 30 of the guide element 16 allows.

The guide element 16 is in a kind of recording 34 stored, the recording 34 on the circuit board 20 is arranged. In the embodiment shown here, the guide element 16 about a pivot 46 pivotally attached to the receptacle 34 stored, so that by a pivoting movement of the guide element 16 a pivoting movement of the stripped section 14 of the leader 10 together with the receiving element 12 and the guide element 16 in the direction of the fork-shaped contact element 18 can be done to make a contact, as in 3 is shown to be able to realize.

The fork-shaped contact element 18 has for contacting two parallel end sections 36 which, in the contacting state, as in 3 shown the stripped section 14 of the leader 10 at least partially encompass to realize a contact. For receiving the fork-shaped contact element 18 has the receiving element 12 preferably one or two groove-shaped openings 38 on. The guide element 16 also has an opening 40 , which is preferably slit-shaped, on, wherein the opening 40 of the guide element 16 and the opening 38 of the receiving element 12 in the inserted state of the receiving element 12 in the guide element 16 are preferably arranged congruently, so that over both openings 38 . 40 the fork-shaped contact element 18 in the guide element 16 and the receiving element 12 can dive.

As in 3 is shown between the fork-shaped contact element 18 and the openings 38 . 40 of the guide element 16 and the receiving element 12 a sealing element 42 provided, which is a penetration of dirt and moisture through the openings 38 . 40 prevented.

3 also shows the fuse element 28 in a partially cut state, wherein it can be seen that the securing element 28 also a sealing element 44 For example, in the form of a rubber ring, which has the outer peripheral surface of the conductor 10 , in particular around the outer peripheral surface of the stripped portion 14 of the leader 10 encloses to realize a seal against dirt and moisture here too.

By means of the connector assembly according to the invention thus a contact-protected and protected against dirt and moisture contacting is possible. The connector assembly according to the invention is also characterized by a high degree of flexibility, since the arrangement of various conductors 10 in the connector assembly, in particular various conductors 10 with different conductor diameters, only a replacement of the receiving element 12 through a receiving element 12 with a to the corresponding diameter of the stripped section 14 of the leader 10 adjusted bore 26 necessary is. The remaining components of the connector assembly preferably have to be connected when connecting a conductor of other dimensions 10 are not exchanged, so that the connector assembly according to the invention to a variety of conductors 10 easy and fast customizable.

LIST OF REFERENCE NUMBERS

10

ladder

12

receiving element

14

Stripped section

16

guide element

18

contact element

20

circuit board

22

First end section receiving element

24

Second end section receiving element

26

drilling

28

fuse element

30

recess

32

sealing element

34

admission

36

End section contact element

38

opening

40

opening

42

sealing element

44

sealing element

46

pivot point

Claims (8)

Connector arrangement for contacting a conductor ( 10 ), with a receiving element ( 12 ) for receiving a stripped section ( 14 ) of the conductor to be contacted ( 10 ) and a fork-shaped contact element ( 18 ) for contacting the stripped section ( 14 ) of the leader ( 10 ), wherein the receiving element ( 12 ) in the receiving element ( 12 ), the stripped section ( 14 ) of the leader ( 10 ) encloses, in a contacting state, the fork-shaped contact element ( 18 ) at least partially into the receiving element ( 12 ) is introduced and the fork-shaped contact element ( 18 ) in the receiving element ( 12 ), the stripped section ( 14 ) of the leader ( 10 ) at least partially encompasses. Connector assembly according to claim 1, characterized in that the receiving element ( 12 ) an opening ( 38 ), via which the fork-shaped contact element ( 18 ) at least partially into the receiving element ( 14 ) is insertable, wherein in the region of the opening ( 38 ) A sealing element is provided. Connector arrangement according to claim 1 or 2, characterized in that the receiving element ( 12 ) a hole ( 26 ), into which the stripped section ( 14 ) of the leader ( 10 ) is introduced in the contacting state, wherein the inner diameter of the bore ( 26 ) substantially the outer diameter of the stripped portion ( 14 ) of the leader ( 10 ) corresponds. Connector arrangement according to one of claims 1 to 3, characterized in that in the transition region between the receiving element ( 12 ) and in the receiving element ( 12 ) to be contacted ( 10 ) a fuse element ( 28 ) is provided. Connector arrangement according to one of claims 1 to 4, characterized in that the receiving element ( 12 ) in a guide element ( 16 ) is positionable, wherein the receiving element ( 12 ) by means of the guide element ( 16 ) relative to the fork-shaped contact element ( 18 ) is movable. Connector arrangement according to claim 5, characterized in that the guide element ( 16 ) relative to the fork-shaped contact element ( 18 ) is mounted pivotably or linearly movable. Connector arrangement according to one of claims 1 to 6, characterized in that a latching means for fixing the receiving element ( 12 ) and / or the guide element ( 16 ) is provided in a certain position. Connector arrangement according to one of claims 1 to 6, characterized in that the fork-shaped contact element ( 18 ) on a printed circuit board ( 12 ) or is arranged on a solar cell.

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