DE202018105251U1 - Contact pin with contact agent - Google Patents

Abstract

Contact pin (1) for contacting an electrically conductive region (3) of a contact partner (2) with a housing element (10), a guide body (20), which is arranged movably in the longitudinal direction of the housing element (10) and by a spring element (40) in Force applied longitudinally, and acting as a conductor contact element (30) which is movable with the guide body (20) relative to the housing element (10), so that it is selectively adjustable between a retracted home position (GST) and an extended Dekontaktierungsstellung (DST) wherein the spring element (40) biases the contact element (30) into the basic position (GST) and is designed such that a decontacting of the contact element (30) from the conductive region (3) of the contact partner (2) by means of spring-induced acceleration relative to the housing element (10), wherein the contact pin (1) has a contact means (60, 80) for producing an electrically conductive contact between the housing element (10) and the guide body (20) and / or the contact element (30) at least in the decontacting position (DST), wherein the contact means (60, 80) has at least one spring-shaped spring section which is in the decontacting position (DST) with force applied to the housing element (10) or the guide body (20).

Description

The invention relates to a contact pin for contacting an electrically conductive portion of a contact partner and a system comprising a contact pin.

Such pins are known in practice and are used for releasably contacting an inner contact having a contact partner, which may be formed as a coupler. Such connections may serve to conduct high voltage low voltage DC.

When decontacting between the contact pin and the contact partner is usually an unwanted voltage flashover, which can lead to an arc fault. However, such an arc significantly reduces the life of the contact pin and the contact partner and can lead to a faster defect of the components, for example by burning corresponding components.

The object of the invention is therefore to provide a contact pin for contacting an electrically conductive region of a contact partner, which avoids the emergence of an arc fault when decontacting as possible and has an improved electrical conductivity at applied voltage or residual voltage.

This object is achieved by the contact pin with the features of claim 1, after which this comprises a housing element, a guide body which is movably arranged in the longitudinal direction of the housing member and kraftbeaufschlagt by a spring member in the longitudinal direction, and acting as a conductor contact element. The contact element is designed to be movable with the guide body relative to the housing element, so that it is selectively adjustable between a retracted home position and an extended Dekontaktierungsstellung. The spring element biases the contacting element into the basic position and is configured such that a decontacting of the contact element from the conductive region of the contact partner takes place by means of spring-induced acceleration relative to the housing element. The contact pin also comprises a contact means for producing an electrically conductive contact between the housing element and the guide body and / or the contact element at least in the Dekontaktierungsstellung, wherein the contact means comprises at least one resiliently formed spring portion which abuts kraftbeaufschlagt in Dekontaktierungsstellung on the housing element or the guide body.

The contact pin according to the invention substantially increases the speed at which the contact element moves away from the conductive region of the contact partner so as to cover in a very short time a distance serving as a safety distance to the contact partner, which precludes the formation of an arc or at least the action time of an arc keeps minimal.

A contact between the contact element and the contact partner can be effected for example by means of clamping contact, in which case the contact pin can serve as a plug element and the contact partner as a coupler element. In contact position between the contact element and the contact partner, the contact element is adjustable in its retracted home position. In this basic position, the spring element has the lowest energy level, or is as relaxed as possible. In the basic position, moreover, the contact element can rest on the housing element. Thus, the contact pin is flowed through by electricity.

Decontacting now proceeds in at least two steps. In a first decontacting step, a force acting in the longitudinal direction of the housing element can now be applied to the housing element which points away from the contact partner. This tensile force causes the housing element of the contact partner away, but the contact element due to a contact force, such as a clamping force, and the spring bearing remains in contact with the contact partner. Thus, the housing member is adjusted by a defined length relative to the contact element in still existing contact. In this case, the length can be selected so that the distance is sufficient to preclude the formation of an arc fault or at least reduce the exposure time of an arc fault. The decontacting position is defined by the position in which the holding force between the contact pin and the contact partner is minimally greater than the spring force applied by the spring element of the contact pin. The second decontacting step begins when the tensile force applied to the housing member or the spring force applied to the contact member exceeds the holding force of the contact partner. Then the contact element separates from the conductive region of the contact partner and is abruptly and spring-fed retracted in the direction of the housing element. Thus, a spring-induced acceleration of the contact element relative to the housing element is realized.

The design of the spring element can be based, for example, on the choice of material, the wire diameter, the winding diameter, the length, the spring force and / or, for example, the spring constant.

The essential advantage of the contact pin according to the invention can be seen in particular in that the at least one spring-trained spring portion of the contact means leads to a kraftbeaufschlagen and thus amplifiable electrical contact. The reinforceability of the electrical contact causes a greater friction and / or a greater contact pressure between the contact means and the contact element of this contact arises and thus, as it were an electrical resistance reduction and improved conductivity is realized.

The contact means can therefore both serve as protection against tilting or tilting of the guide body and / or the contact element as well as realize a secure electrical contact or sliding contact between the guide body and / or the contact element and the housing element. Therefore, there is always a safe electrical transition and there can be no burn / flashover between the contact element and / or guide element and housing element - even in the movement.

Another advantage of the contact pin according to the invention can be seen in particular that an arc does not even arise or a demolition of the arc takes place after a very short time, so that the exposure time of the harmful arc is very short. The spring-induced acceleration leads to a rapid separation of the two contact partners and a rapid achievement of a sufficient distance between the contact partner and the contact pin, in which no arc can arise. Thus, the contact pin can be deducted even with the remaining charge.

In a preferred embodiment of the contact pin according to the invention, the contact means is arranged in a space formed between the housing element and the guide body and / or the contact element and / or at least partially sleeve-like. The contact means is thus arranged as an electrical conducting means between the stationary in Dekontaktierungsstellung based on the contact partner contact element and the decontacting position relative to the contact partner moved or movable housing member to allow improved conductivity and improved dissipation of currents. The contact means may consequently be penetrated by the guide body and / or the contact element, wherein in particular an electrically conductive contact is formed there. It may be advantageous if the contact means is slidably mounted relative to the guide body and / or the contact element.

It is conceivable according to a further preferred embodiment of the contact pin according to the invention that the force is applied in the longitudinal direction of the housing element and / or exclusively by the spring element. The fact that the spatial extent of the contact pin in its longitudinal direction is considerably greater than in the transverse direction, is suitable for compliance with small installation spaces Kraftbeaufschlagungsrichtung, which corresponds to the spatial extent of the housing member. Since the spring element is arranged in this direction and can apply a force, the spring element can not only serve to bias the contact element in the normal position but also to the application of force to the contact means. Due to the dual function of the spring element, the number of required items is low and realized a small required space.

According to a further preferred embodiment of the contact pin according to the invention it is provided that the spring portion is formed by a clamping strap, wherein the contact means preferably comprises a plurality, more preferably eight, spaced apart and extending in the longitudinal direction of the housing member clamping straps. The clamping straps can be identically formed and / or evenly spaced. These clamping straps and their arrangement take into account the small space. Adjacent clamping straps can be separated, for example, by a gap arranged therebetween. The spring sections can receive their spring function, for example due to suitable material selection and / or structural design.

In a further preferred embodiment of the contact pin according to the invention, the contact pin comprises a clamping means, which is designed such that with increasing excerpt of the guide body relative to the housing element, the application of force to the spring section. As a result, the contact pressure between the spring section and the adjoining element, such as the housing element or the guide body or of the contact element, increases as it were. The increasing application of force in the direction of decontacting or the reinforcement of the electrical contact leads to a greater friction and / or a greater contact pressure and thus, as it were, an electrical resistance reduction and an improved conductivity are realized. Especially this design serves to increase the safety, as in the decontacting position or at a time immediately before decontacting (Dekontaktierungsstellung) the friction and / or the contact pressure is large and the conductivity is also large.

It is further development conceivable that the clamping means is formed by a support ramp on the housing element or on the guide body, which can accumulate on removal of the guide body and / or the contact element relative to the housing element, the contact means and / or is formed by at least one to the housing element and / or curved to the guide body and / or to the contact element clamping portion of the contact means and / or is formed by a longitudinally of the housing member at least partially conical guide body and / or contact element. In the clamping device in its first embodiment, it is designed as a support ramp on the housing element. The guide body or its spring portion can accumulate upon withdrawal of the guide body on the support ramp, for which purpose the guide body or its spring portion may comprise a ramp, the surface may extend parallel to the corresponding surface of the support ramp. The support ramp is arranged so that it expands the guide body when moving out or its spring portion displaced radially outward or inward. The contact means and the clamping means can be arranged in the basic position in the opposite end of the contact element of the contact pin or the guide body. In the tensioning means in its second embodiment, it is designed as a support ramp on the guide body, in which case the function of the first embodiment is similar. However, the contact means and the tensioning means can be arranged in the basic position in the end region of the contact pin or of the guide body facing the contact element. In the clamping device in its third embodiment, it is formed as at least one to the housing member and / or to the guide body and / or to the contact element arched clamping portion of the contact means. In such a clamping portion, a force can be introduced in a simple manner, which can be forwarded due to the curvature orthogonal to the direction of the insertion force. As a result, it is possible to realize a contact pressure increase while at the same time using less space. In the clamping device in its fourth embodiment, it is designed as a conical course in the longitudinal direction of the housing element, the guide body and / or contact element. Preferably, the cross-section increases with increasing distance from the contact element. As a result, as the extension of the guide body and / or contact element increases, the application of force to the spring section increases due to the fact that the spring section is increasingly displaced relative to its rest position and pressed against the correspondingly contacted element.

It is according to a further preferred embodiment of the contact pin according to the invention conceivable that the housing element has an at least partially circumferentially arranged constriction portion which cooperates with the contact means such that it at least in the Dekontaktierungsstellung a direction of movement of the spring portion in the direction of the guide body and / or pretending to the contact element. Thus, the registered force in the spring portion is given a direction, whereby a desired and contact pressure increasing deformation and / or displacement of the spring portion can take place. Especially suitable is the combination of the constricting portion and the clamping means as a curved clamping portion, since thus the curved clamping portion, a direction of movement can be predetermined.

In a further preferred embodiment of the contact pin according to the invention, at least the contact means is designed such that the force is maximum in Dekontaktierungsstellung based on the Auszugsweg the guide body and / or the contact element relative to the housing element. This ensures that in the phase of the decontacting process with the greatest security risk, a contact pin with the greatest possible line security is compared. Namely, the greater the force application and the contact pressure, the greater the conductivity of the contact pin.

It is conceivable that the contact means is, for example, an abrasive element arranged and / or formed, for example an annular spring, and / or comprises conductive / metallic polymer and / or is formed as etched, bent, stamped, and / or milled part.

In one example of the contact pin, the spring element is designed such that decontacting takes place at a tensile force of 3.5N to 6.5N, preferably between 4.25N and 5.75N, more preferably 5N. Additionally or alternatively, the spring can be formed such that a decontacting at an extension length between the contact element and the housing element from 19.5 mm to 10.5 mm, preferably from 17.25 mm to 12.75 mm, particularly preferably 15 mm. As a result, a contact pin can be formed, which initially forms a sufficient extension length and only then allows decontacting.

It has also been found that the housing element may have a support flange for the upper support of the spring element at its axial end facing the contact element.

In a further example of the contact pin, the contact element is screwed to the guide body and / or jammed. This must be done only the contact element can be exchanged in order to adapt the contact pin to the requirements of an application. In addition, a worn or defective contact element can be exchanged in a simple manner, which leads to a longer life of the contact pin, since the other components are reusable.

In order to ensure a high level of practice safety, the use of a recess for an insulating contact protection has proved to be advantageous.

The invention also proposes a system comprising at least one contact pin according to the invention arranged in a plug and a mating plug with at least one contact partner for making electrical contact with the contact pin.

The system according to the invention essentially has the advantages of the contact pin, to which reference is hereby made.

• - Kraftbeaufschlagen eines Gehäuseelements des Kontaktstifts in Längsrichtung des Gehäuseelements und entgegengesetzter Richtung zu dem Kontaktpartner,
• - dadurch Steigern einer Anpresskraft zwischen einem Kontaktelement und dem Gehäuseelement und einem Führungskörper und/oder einem Kontaktelement zur Herstellung oder Aufrechterhaltung einer elektrisch leitenden Verbindung,
• - Erreichen einer Dekontaktierungsstellung, in welcher die Haltekraft zwischen dem Kontaktstift und dem Kontaktpartner minimal größer ist als die durch ein Federelement des Kontaktstifts aufgebrachte Federkraft zum Lösen der Verbindung,
• - weiteres Kraftbeaufschlagen des Gehäuseelements zum Überwinden der Haltekraft,
• - Einziehen des Kontaktelements in das Gehäuseelement mittels durch die Feder aufgebrachter Federkraft.

It is also disclosed a method for decontacting a contact pin of an electrically conductive region of a contact partner, comprising

• Force application of a housing element of the contact pin in the longitudinal direction of the housing element and opposite direction to the contact partner,
• thereby increasing a contact force between a contact element and the housing element and a guide body and / or a contact element for producing or maintaining an electrically conductive connection,
• Reaching a decontacting position in which the holding force between the contact pin and the contact partner is minimally greater than the spring force applied by a spring element of the contact pin for releasing the connection,
• further applying force to the housing element to overcome the holding force,
• - Pulling the contact element in the housing element by means of the spring applied spring force.

The method according to the invention essentially has the advantages of the contact pin, to which reference is hereby made.

In order to avoid repetition, features disclosed in accordance with the device should also be regarded as disclosed according to the method and be able to be claimed. Likewise, according to the method disclosed features should also be considered as disclosed device and claimable.

Further advantages, features and details of the invention will become apparent from the dependent claims and also from the following description of preferred embodiments and from the drawing.

• 1 eine schematische Ansicht eines erfindungsgemäßen Kontaktstifts in Grundstellung,
• 2 einen Längsschnitt durch den Kontaktstift nach 1 entlang der Linie II-II,
• 3 eine schematische Ansicht des erfindungsgemäßen Kontaktstiftes nach 1 in Dekontaktierungsstellung,
• 4 einen Längsschnitt durch den Kontaktstift nach 3 entlang der Linie IV-IV,
• 5 eine schematische Ansicht eines erfindungsgemäßen Kontaktstifts gemäß einer weiteren Ausführungsform in Grundstellung,
• 6 einen Längsschnitt durch den Kontaktstift nach 5 entlang der Linie VI-VI,
• 7 eine schematische Ansicht eines erfindungsgemäßen Kontaktstifts gemäß einer weiteren Ausführungsform in Grundstellung,
• 8 einen Längsschnitt durch den Kontaktstift nach 7 entlang der Linie VIII-VIII,
• 9 eine Detailansicht des Kontaktstiftes nach 2, und
• 10 eine perspektivische Einzelansicht eines Kontaktmittels gemäß einer ersten Ausführungsform.

This shows in:

• 1 a schematic view of a contact pin according to the invention in the basic position,
• 2 a longitudinal section through the contact pin after 1 along the line II-II .
• 3 a schematic view of the contact pin according to the invention 1 in decontacting position,
• 4 a longitudinal section through the contact pin after 3 along the line IV-IV .
• 5 a schematic view of a contact pin according to the invention according to a further embodiment in the basic position,
• 6 a longitudinal section through the contact pin after 5 along the line VI-VI .
• 7 a schematic view of a contact pin according to the invention according to a further embodiment in the basic position,
• 8th a longitudinal section through the contact pin after 7 along the line VIII-VIII .
• 9 a detailed view of the contact pin after 2 , and
• 10 a single perspective view of a contact means according to a first embodiment.

The 1 to 8th each show a contact pin 1 for clamping contacting an electrically conductive region 3 a contact partner 2 represented in 4 , The 1 to 4 are directed to a contact pin 1 comprising a contact agent 60 according to a first embodiment. The 5 and 6 show a contact pin 1 comprising a contact agent 80 according to a second embodiment. The 7 and 8th form another contact pin 1 from, comprising the contact means 80 , The 9 and 10 show the contact agent 60 according to the first embodiment in a detailed view.

The 1 and 2 show the contact pin 1 in a basic position or a position before a corresponding contact or after a decontacting. The 3 and 4 show the contact pin 1 in a decontacting position or in a position in which the decontacting is imminent.

The contact pin 1 comprises a preferably sleeve-shaped housing element 10 in which in the longitudinal direction of the housing element 10 a guide body 20 is movably arranged. With the guide body 20 is a contact element 30 via a screw connection 35 screwed, which with the guide body 20 opposite the housing element 10 is mobile. Between the guide body 20 and the contact element 30 is inside the housing element 10 a gap 36 educated. The contact element 30 acts as a leader and is optional between one in the 1 and 2 illustrated retracted basic position GST and one in the 3 and 4 illustrated extended Dekontaktierungsstellung DST adjustable. In the basic position GST lies the contact element 30 at an end stop area 14 of the housing element 10 on. The contact element 30 has a recess 31 on, in which a in 3 shown insulating contact protection 37 can be introduced.

How 2 shows, the housing member 10 at its the contact element 30 facing axial end of a support flange 11 on, which for the upper support of a spring element 40 serves. On the guide body 20 is the contact agent 60 arranged to a lower support for the spring element 40 train. The spring element 40 lies directly on a face 24 of the contact agent 60 on. In the shown basic position GST has the spring element 40 the lowest energy level, or is as relaxed as possible. The contact agent 60 is in the contact element 30 opposite end portion of the contact pin 1 or the management body 20 slidable relative to the guide body 20 in a gap 36 arranged. The contact agent 60 lies with a ramp 33 on a support ramp serving as a tensioning device 23 of the management body, shown in more detail in the 9 and 10 , On the support ramp 23 can when extracting the guide body 20 opposite the housing element 10 the contact agent 60 accumulate to produce an increased contact pressure. Serve several, preferably eight, spring-trained spring sections, which in Dekontaktierungsstellung DST force applied to the housing element 10 issue. The spring sections are formed by clamping straps 28 , The application of force in the longitudinal direction of the housing element 10 takes place exclusively by the spring element 40 , It can be seen that the clamping means or the support ramp 23 is formed such that with increasing excerpt of the guide body 20 opposite the housing element 10 the application of force to the spring section increases. In particular, the contact agent 60 designed such that the application of force in Dekontaktierungsstellung DST related to the excerpt path of the guide body 20 opposite the housing element 10 is maximum.

In the 3 and 4 there is an electrical contact between the contact element 30 and the electrically conductive region 3 of the contact partner 2 , The contact element 30 is by means of a clamping force in a known manner in the contact partner 2 held.

The provision from the into the 3 and 4 shown Dekontaktierungsstellung DST to the basic position GST takes place by means of the spring element designed as a helical compression spring 40 which the guide body 20 in the longitudinal direction of the housing element 10 with force. The spring element 40 Although in the example shown is designed as a helical compression spring, but any other spring shape, such as a helical tension spring or a helical wave spring is conceivable.

The spring element 40 thus biases the contact element 30 to the basic position GST in front. As will be explained in more detail below, the spring element 40 designed such that a decontacting of the contact element 30 from the executive area 3 of the contact partner 2 by means of spring-induced acceleration relative to the housing element 10 he follows.

The housing element 10 has at its the contact element 30 axially opposite end of a fastener 12 on, which can serve as a soldering portion, for example. As a result, torsional loads of the contact pin are advantageously 1 locked out.

The housing element 10 also has an outer ring flange 13 on. Except for the ring flange 13 have the housing element 10 and the contact element 20 a cylindrical shape and an identical outer radius. Thus, a homogeneous and uniform outer contour is formed, which is a contacting of the contact pin 1 with a contact partner 2 much easier.

The in the 1 to 10 shown contact pin 1 can have a length of 58.5mm. The diameter of the contact pin 1 can in the area of the ring flange 13 5mm and in the remaining area 4mm. The length of the guide body 20 In the basic position GST outstanding part of the contact element 30 can count 9mm.

The 5 and 6 show a contact pin 1 with a contact agent 80 according to a further embodiment, wherein in the following only on the differences to the 1 to 4 to be received. The contact agent 80 includes a plurality, preferably six, spring-trained spring sections, which by curved clamping sections 39 are formed. These clamping sections 39 At the same time form the clamping device. The contact pin 1 includes in the area of the clamping sections 39 a circumferentially continuously arranged constriction section 41 which is so with the contact means 80 he cooperates at least in the decontacting position DST a movement direction of the spring sections or clamping sections 39 towards the guide body 20 pretends. At spring-induced application of force to the clamping sections 39 leaves the concave constriction section 41 the clamping sections 39 no room to get away from the contact element 30 and / or the guiding body 20 to bend away or to bend radially outward. The contact agent 80 is in the basic position shown GST in the contact element 30 facing end portion of the contact pin 1 or the leadership body 10 arranged. The spring element 40 supported on the one hand on the front surface 24 of the contact agent 80 and on the other hand on a support surface 38 of the leadership body 20 from. When extracting the guide body 20 opposite the housing element 10 becomes the spring element 40 compresses and presses on the clamping sections 39 of the contact agent 80 , Due to their curvature in the direction of the guide body 20 and the contact element 30 as well as due to the necking section 41 become the clamping sections 39 moved radially inward or bent and are depending on the extension force loaded on the guide body 20 or the contact element 30 on.

The 7 and 8th show a contact pin 1 with the from the 5 and 6 known contact means 80 according to a further embodiment. The following is merely to the differences to the 5 and 6 To be received. A tensioning means is formed by a conical section 44 of the contact element 30 where the diameter of the section 44 in the longitudinal direction of the contact pin 1 with increasing distance from one for the conducting area 3 of the contact partner 2 provided contact area of the contact element 30 increases. The section 44 extends over a length L ₂ of the contact element 30 , In the area of the stop area 14 has the housing element 10 a collar 46 on which the contact means 80 in the longitudinal direction of the contact pin 1 fixed. When extracting the guide body 20 opposite the housing element 10 becomes the spring element 40 compressed and pressed on the possibly already biased clamping sections 39 of the contact agent 80 , Due to their curvature in the direction of the guide body 20 and the contact element 30 are the clamping sections 39 depending on the extension width force applied to the guide body 20 or the contact element 30 on. Inside is the clamping sections 39 with increasing extension length of the thereby thickening cross-section of the section 44 counter, creating a contact force between the guide body 20 or the section 44 as a clamping device and the contact agent 80 still further compared to the embodiment according to 5 and 6 is increased. With increasing excerpt of the contact element 30 and the leadership body 20 experience the clamping sections 39 due to the thickening or conical section 44 a force acting radially outward. The maximum extension length of the contact element 30 is dependent on the contact partner 2 such that the decontacting position DST then reached when the clamping sections 39 at the largest diameter of the section 44 issue.

9 shows a detailed view of the contact pin 1 to 2 in the range of the contact agent 60 , The guide body 20 has at its axial the contact element 30 opposite end of a support flange 22 on, which by means of the support ramp 23 into the core area of the guiding body 20 passes. Between the bottom side 42 of the contact agent 60 and the opposite surface of the support flange 22 is a distance A trained, which in basic position GST greater than zero and in decontacting position DST Can be zero, but at least smaller.

Out 10 it can be seen that the contact agent 60 a contact element 30 facing end face 24 has, which as a support surface for the spring element 40 serves. The face 24 is at a collar area 25 of the contact agent 60 arranged, which in the longitudinal direction in a Einschnürbereich 26 goes over, in which longitudinally a tab area 27 followed. The constriction area 26 has a smaller outer diameter than the collar area 25 and the tab area 27 , The tab area 27 has a plurality, preferably eight, evenly spaced clamping tabs 28 on. Between adjacent clamping straps 28 is each a gap 29 formed, which up into the constriction area 26 protrudes. Each clamping lug 28 has a domed outer surface 32 that with the support ramp 23 corresponding inner inlet slope 33 and one with the support flange 22 corresponding Stützfußabschnitt 34 on.

The contact agent 60 serves as a support element for the spring element 40 and at the same time has the function of a secure electrical contact or sliding contact with the housing element 10 or to its inner surface. As a result, there can be a safe electrical transition at any time. Thus, a burnup and / or flashover between contact element 30 or guide element 20 and housing element 10 excluded in every position.

The clamping straps 28 of the contact agent 60 be in the extraction of the guide element 20 by the application of force by means of the spring element 40 over the support ramp 23 and the inner inlet slope 33 pressed radially outward and thereby the electrical contact in the extraction is still reinforced by the increasing spring force of the spring element 40 ,

A decontacting of the contact element 30 from the contact partner 2 now runs in at least two steps. In a first decontacting step, a longitudinal direction of the housing element 10 acting tensile force on the housing element 10 which are applied by the contact partner 2 points away. This tensile force causes the housing element 10 from the contact partner 2 away. On the other hand, the contact element remains 30 However, due to the contact force or clamping force and the spring bearing in contact with the contact partner 2 , This will cause the housing element 10 by a defined length L ₁ opposite the contact element 30 adjusted in case of continuing contact. The illustrated embodiment of the spring element 40 causes the length L ₁ can be chosen so that the distance between the retracted contact element 30 and its contact partners 2 sufficient to preclude the occurrence of a fault arc or at least to reduce the exposure time of a fault arc still occurring. In the example shown, the length is L ₁ 15mm, wherein a decontacting takes place before designed as a compression spring spring element 40 fully compressed.

The second decontacting step begins when the tensile force applied to the housing member and that on the contact member 30 applied spring force the holding force of the contact partner 2 exceed. Then the contact element dissolves 30 from the executive area 3 of the contact partner 2 and springs abruptly in the direction of the housing element 10 on. Thus, a spring-induced acceleration of the contact element 30 opposite the housing element 10 realized with simultaneous reliable conductivity.

LIST OF REFERENCE NUMBERS

1

pin

2

Contact partner

3

senior area

10

housing element

11

support flange

12

fastener

13

annular flange

14

stop area

20

guide body

22

support flange

23

support ramp

24

face

25

collar region

26

constriction

27

tab region

28

clamping plate

29

gap

30

contact element

31

recess

32

outer surface

33

approach ramp

34

Stützfußabschnitt

35

screw

36

gap

37

contact protection

38

support surface

39

clamping section

40

spring element

41

constriction

42

bottom side

44

section

46

collar

60

contact means

80

contact means

A

distance

L ₁

length

L ₂

length

GST

basic position

DST

Dekontaktierungsstellung

Claims (10)

Contact pin (1) for contacting an electrically conductive region (3) of a contact partner (2) with a housing element (10), a guide body (20), which is arranged movably in the longitudinal direction of the housing element (10) and by a spring element (40) in Force applied longitudinally, and acting as a conductor contact element (30) which is movable with the guide body (20) relative to the housing element (10), so that it is selectively between a retracted home position (GST) and a is extended, wherein the spring element (40) biases the contact element (30) in the basic position (GST) and is designed such that a decontacting of the contact element (30) from the conductive region (3) of the contact partner (2 The contact pin (1) is a contact means (60, 80) for producing an electrically conductive contact between the housing element (10) and the guide body (20) and / or the contact element (30 ) comprises at least in the decontacting position (DST), wherein the contact means (60, 80) at least one resiliently formed spring portion, which in the decontacting position (DST) force applied to the housing element (10) or the guide body (20). Contact pin (1) to Claim 1 wherein the contact means (60, 80) in a between the housing member (10) and the guide body (20) and / or the contact element (30) formed intermediate space (36) is arranged and / or at least partially sleeve-like. Contact pin (1) according to one of the preceding claims, wherein the force is applied in the longitudinal direction of the housing element (10) and / or exclusively by the spring element (40). Contact pin (1) according to one of the preceding claims, wherein the spring portion is formed by a clamping lug (28), wherein the contact means (60, 80) preferably a plurality, more preferably eight, spaced apart and in the longitudinal direction of the housing member (10) extending clamping tabs (60). 28). Contact pin (1) according to one of the preceding claims, comprising a clamping means, which is designed such that with increasing excerpt of the guide body (20) relative to the housing element (10), the application of force to the spring section. Contact pin (1) to Claim 5 in which the tensioning means is formed by a support ramp (23) on the housing element (10) or on the guide body (20) onto which the guide body (20) and / or the contact element (30) move relative to the housing element (10) Contact means (60) can accumulate and / or is formed by at least one to the housing member (10) and / or to the guide body (20) and / or to the contact element (30) arched clamping portion (39) of the contact means (80) and / or is formed by a guide body (20) and / or contact element (30) which is conical at least in sections in the longitudinal direction of the housing element (10). Contact pin (1) according to one of the preceding claims, wherein the housing element (10) has an at least partially circumferentially arranged constriction portion (41) which cooperates with the contact means (80) such that it at least in the Dekontaktierungsstellung (DST) a direction of movement of the spring portion in the direction of the guide body (20) and / or to the contact element (30) pretends. Contact pin (1) according to one of the preceding claims, wherein at least the contact means (60, 80) is designed such that the force in Dekontaktierungsstellung (DST) based on the Auszugsweg of the guide body (20) relative to the housing element (10) is maximum. Contact pin (1) according to one of the preceding claims, wherein the spring element (40) bears directly on an end face (24) of the contact means (60, 80). System comprising at least one arranged in a plug pin (1) according to one of the preceding claims and a mating connector with at least one contact partner (2) for electrical contact with the contact pin (1).

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