EP2374186B1 - Electrical connecting terminal for feeding a line through a wall - Google Patents

Description

The invention relates to an electrical terminal for passing a line through a wall, having a first terminal for attachment to one side of the wall and a second terminal for attachment to the other side of the wall.

Electrical connection terminals have great significance in various fields of application, such as in industrial connection technology, and serve, for example, for connecting electrical components. Electrical terminals of the type in question have preferably been developed for devices with enclosed housings and known as so-called lead-through terminals for carrying a line through a wall of the housing.

Feedthrough terminals are known from the prior art, in which the first terminal comes to lie in an inner region of the housing as an inner terminal and the second terminal in an outer region of the housing as an outer terminal. Furthermore, from the prior art bushing terminals are known in which a provided on the inside of the housing insulating part of the outer terminal counteracts. In many cases, the inner terminal and / or the outer terminal on a Schraubanschlusskörper, a pin, a solder connection, a blade terminal or a winding connection for contacting the line.

DE 3613681 describes an electrical connection terminal for carrying a line through a housing wall with a consisting of insulating terminal housing, a in Terminal housing disposed, optionally protruding from the terminal housing, metallic outer conductor terminal body and disposed in the terminal housing, optionally protruding from the terminal housing, electrically connected to the outer conductor terminal body, metallic Innenleiteranschlusskörper, the terminal housing is fastened in an opening of a housing wall and inserted into an opening in a housing wall Terminal housing of the outer conductor connecting body substantially entirely on the outside of the housing wall and the inner conductor connecting body are arranged substantially entirely on the inside of the housing wall.

The known, previously explained feed-through terminals can be used in the first place for measuring and control circuits, namely up to a maximum of 660 V and 20 A available. higher Voltages or currents require a significant increase in the terminals in order to achieve the creepage and clearance distances required by the standard. However, such known from the prior art feedthrough terminals, which can be used for higher voltages, such as 1000 V, manufacturing technology, however, are extremely expensive to produce and are not universally applicable due to the significantly increased volumes of terminals.

Therefore, it is the object of the invention to provide a compact electrical terminal for passing a line through a wall, which is suitable for high voltages or currents.

This object is achieved by an electrical connection terminal for passing a line through a wall, as defined in claim 1.

According to the invention, such an electrical connection terminal is specified for carrying out a line through a wall, which can be used for higher voltages, such as 1000 V, without increasing the volumes of the terminals compared with the designs for electrical connection terminals of lower voltages known from the prior art are.

The fact that the busbar facing away from the surface of the connecting element has a leakage current extension, the inventive electrical terminal allows the implementation of a higher voltage, such as 1000 V, by a wall in compliance with the required clearance and creepage distances, such as from standard IEC 60947 -7-1 / DIN EN 60664-1 / VDE0110-1.

Preferably, the entire surface of the connecting element facing away from the busbar, that is to say the surface of the connecting element which does not face the busbar, is designed as a leakage current extension. In this case, the surface of the creepage current extension according to the invention has a larger creepage distance than a surface of the connecting element without creepage current extension, in particular a surface with a planar shape. Furthermore, it is preferred that the busbar is guided as a current bar, wherein the connecting element preferably comprises an insulating material. Furthermore, it is preferred that the first terminal on an inner side of the wall as an inner terminal and the second terminal on the outside of the wall is attachable as an outer terminal. The creepage current extension according to the invention can in particular extend the creepage distance of a leakage current which flows between the busbar and the wall. In this case, the wall may for example have a metallic, that is to say conductive material and be part of a housing, such as an electrical installation box or a control cabinet.

In principle, the creepage current extension can be configured geometrically as desired. According to the invention, however, it is provided that the leakage current extension a has alternately groove-like and spring-like structuring and / or a tooth-like structuring of the busbar remote from the surface of the connecting element. Furthermore, it is preferred that the creepage current extension has a corner-like structuring and / or a rib-like structuring. Such creepage current extension increases the creepage distance, so that the electrical connection terminal according to the invention can be subjected to higher voltages.

It is further provided that the ratio of the depth of the groove to the height of the spring of the alternating groove-like and spring-like structuring in a front portion of the connecting element is greater than in a rear portion of the connecting element. In this case, the front portion of the connecting element is inserted deeper into the second terminal than the rear portion of the connecting element. By means of such a design, it can be achieved that, in the region of the connecting element which is furthest in the second terminal, the creeping distance of the leakage current is prolonged with respect to the region of the connecting element which is inserted less far into the second terminal.

According to a further preferred embodiment of the invention, when the first terminal and the second terminal are connected to one another, at least the front section of the connecting element is inserted into the second terminal. In other words, a leakage current between the bus bar and the wall on the surface remote from the busbar surface of the front portion of the connecting element flow, wherein the front portion of the connecting element has a leakage current extension. In this context, according to a Development of the invention preferably that in the front portion of the connecting element, the entire surface of the connecting element facing away from the busbar has an alternating groove-like and spring-like structuring. In other words, at least in the front section, the connecting element has an alternating groove-like and spring-like structuring surrounding the connecting element, which covers the surface of the connecting element facing away from the busbar.

According to a further preferred embodiment of the invention, the second clamp has a latching element for latching the connecting element, wherein the latching element counteracts the connecting element and the latching element is arranged in the adjoining the wall region of the second terminal. By such a configuration, it is possible that, on the one hand, the connecting element is guided by the locking element when connecting the first terminal to the second terminal, and on the other hand, the terminal is latched to the second terminal by the locking element with the connecting element.

According to a preferred embodiment of the invention it is further provided that in the region of the wall, the connecting element is at least partially insertable into the locking element. In other words, it is preferred that the latching element is arranged not only in the region of the second terminal adjacent to the wall, but also protrudes at least partially or completely into the region of the wall from the second clamp. Such a configuration allows a further extension of the creepage distance, since the creepage distance in addition to the Leakage current extension is extended by the length of the projecting into the region of the wall locking element.

Furthermore, according to a development of the invention, it is particularly preferred that, when the first terminal and the second terminal are connected together, the front section of the connecting element is inserted into the second terminal through the detent element such that only the rear section of the connecting element bears at least partially against the detent element , In other words, it is thus preferred that not the front portion of the connecting element rests against the latching element, but the rear portion of the connecting element at least partially rests against the latching element. Due to this inventive feature can be achieved that the creepage distance is extended because the creepage current extension according to the invention, which is preferably attached to the front portion of the connecting element is inserted at interconnected first terminal and second terminal on the locking element out in the second terminal.

In principle, the locking element can be designed as desired. According to a preferred embodiment of the invention, however, it is provided that the surface of the locking element facing the inserted connecting element has an at least partially alternating groove-like and spring-like structuring and the groove or the spring of the locking element corresponding to the spring or the groove of the rear portion of the connecting element is applied. Thus, the connecting element can be inserted into the latching element having the second terminal such that the locking element with the rear portion of Connecting element locked by means of the corresponding springs or grooves.

In principle, the connecting element can have any profile. According to a preferred embodiment of the invention, however, it is provided that the connecting element has a rectangular profile. Furthermore, it is preferred that the connecting element has a tubular profile. In this context, it is further preferred that the busbar has a rectangular profile, so that the connecting element can lie positively against the busbar. It is also preferred that the locking element can form a positive connection with the connecting element.

According to a preferred development of the invention, it is further provided that the first terminal has a first terminal body, the second terminal has a second terminal body, the busbar is fixedly connected to the first terminal body or to the second terminal body, and the busbar to the second terminal body or with the first connector body, respectively, is releasably connected. Furthermore, it is preferred in this context that a detachable connection of the busbar to the first connection body and / or to the second connection body can be produced by clamping.

In principle, the first connection body and / or the second connection body can be designed as a spring-force connection body or as a connection pin of any type. According to a preferred embodiment of the invention, however, it is provided that the first connection body and / or the second connection body are designed as a screw connection body. In this case, a dimensioning of the first Connection body, the second connection body and / or the busbar due to the expected on the line currents and / or voltages.

Fig. 1

eine elektrische Anschlussklemme in gestecktem Zustand gemäß einem bevorzugten Ausführungsbeispiel der Erfindung in einer perspektivischen Ansicht,

Fig. 2

eine elektrische Anschlussklemme in gestecktem Zustand gemäß dem bevorzugten Ausführungsbeispiel der Erfindung in einer Schnittansicht, und

Fig. 3

eine elektrische Anschlussklemme in ungestecktem Zustand gemäß einem weiteren bevorzugten Ausführungsbeispiel der Erfindung in einer Schnittansicht.

The invention will be explained in more detail with reference to the drawing. In the drawing shows:

Fig. 1

an electrical terminal in the plugged state according to a preferred embodiment of the invention in a perspective view,

Fig. 2

an electrical terminal in the plugged state according to the preferred embodiment of the invention in a sectional view, and

Fig. 3

an electrical terminal in the unplugged state according to another preferred embodiment of the invention in a sectional view.

Out Fig. 1 to Fig. 3 are an electrical terminal for passing a line through a wall 1 with a first terminal 2 for attachment to one side of the wall 1 and a second terminal 3 for attachment to the other side of the wall 1 can be seen. Basically, the second terminal 3 on an inner side of the wall 1 as an inner terminal and the first terminal 2 on an outer side of the wall 1 as outer terminal fastened, but it is preferably the first terminal 2 as an inner terminal on an inner side of the wall 1 and the second terminal. 3 to be arranged as an outer terminal on an outer side of the wall 1. The wall 1, for example, a metallic wall 1 of an electrical installation box or a control cabinet.

According to the preferred embodiment of the invention, the first terminal 2 has a connecting element 4 for connection to the second terminal 3. With interconnected first terminal 2 and second terminal 3, as shown Fig. 2 can be seen, the connecting element 4 is inserted into the second terminal 3. Likewise, the bus bar 6, which as out Fig. 3 can be seen, is arranged on the second terminal 3, positively inserted into the connecting element 4 in the first terminal 2. The bus bar 6, which can be executed as a metallic current bar, allows an electrical connection between a first terminal body 7 associated with the first terminal 2 and a second terminal body 8 associated with the second terminal 3. As can be seen from the figures, the first terminal body 7 and the second one Connection body 8 designed as a screw terminal body.

The busbar 6 facing away from the surface of the connecting element 4 has in a front portion 9 on a creepage current extension 10. The creepage current extension 10 is formed as an alternating groove-like and spring-like structuring of the busbar 6 facing away from the surface of the connecting element 4. How out Fig. 1 it can be seen, the creepage current extension 10 formed as an alternating groove-like and spring-like structuring is formed on the entire, thus circumferential surface of the front portion 9 of the connecting element 4.

Furthermore, the connecting element 4 in a rear portion 10 also has a groove-like and spring-like Structuring, but the ratio of the depth of the groove to the height of the spring of the alternating groove-like and spring-like structuring in the front portion 9 of the connecting element 4 is greater than in the rear portion 10 of the connecting element 4th

In the adjacent to the wall 1 region of the second terminal 3, a latching element 12 is arranged such that the latching element 12 interacts with the connecting element 4. How out Fig. 1 and Fig. 2 can be seen, the locking element 12 on the connecting element 4 facing surface on an alternately groove-like and spring-like structuring, wherein the groove or the spring of the locking element 12 correspondingly abuts the spring or the groove of the rear portion 11 of the connecting element 4.

As further out Fig. 3 can be seen, the locking element 12 projects according to this preferred embodiment of the invention in the region of the wall 1, so that in the region of the wall 1, the connecting element 4 is at least partially inserted into the locking element 12.

In interconnected first terminal 2 and second terminal 3 is preferably the connecting element 4 on the locking element 12 so that only the rear portion 11 of the connecting element 4 abuts against the locking element 12, so that the front portion 9 of the connecting element 4, which the creepage current extension 10, does not abut against the latching element 12.

Due to the creepage current extension 10 of the electrical terminal according to the invention has a flowing between the busbar 6 and the wall 1 Creep to cope with a larger creepage distance, as known from the prior art electrical terminals. In other words, the electrical terminal according to the invention allows the application of a higher voltage to the busbar 6, while maintaining the required air and creepage distances according to standard. Furthermore, the air gap of the leakage current is increased by the electrical terminal according to the invention, since according to the Fig. 3 apparent preferred embodiment of the invention, the locking element 12 protrudes into the region of the wall 1.

As a result, an electrical connection terminal is provided for passing a line through a wall 1, which allows an application of higher voltages and currents, since no enlargement of the terminals 2, 3 is required due to the creepage current extension according to the invention.

LIST OF REFERENCE NUMBERS

wall 1 First clamp 2 Second clamp 3 connecting element 4 conductor rail 6 First connection body 7 Second connection body 8th Front section 9 Kriechstromverlängerung 10 Rear section 11 locking element 12

Claims (11)

1. An electrical connection terminal for feeding a line through a wall (1), comprising a first terminal (2) to be mounted on one side of the wall and a second terminal (3) to be mounted the other side of the wall (1), wherein
   the first terminal (2) comprises a connecting element (4) for connection to the second terminal (3),
   the connecting element (4) can be introduced into the second terminal (3),
   the second terminal (3) comprises a conductor rail (6) for electrical connection to the first terminal (2),
   the conductor rail (6) can be introduced into the connecting element (4),
   the surface of the connecting element (4) facing away from the conductor rail (6) comprises a creepage current extension (10),
   the creepage current extension (10) comprises an alternating tongue-and-groove-like structuring of the surface of the connecting element (4) facing away from the conductor rail (6), and
   the depth of the groove of the alternating tongue-and-groove-like structuring is larger in a front portion (9) of the connecting element (4) than in a rear portion (11) of the connecting element (4).
2. The electrical connection terminal according to Claim 1, wherein, when the first terminal (2) and second terminal (3) are interconnected, at least the front portion (9) of the connecting element (4) is introduced into the second terminal (3).
3. The electrical connection terminal according to one of the preceding claims, wherein, in the front portion (9) of the connecting element (4), the entire surface of the connecting element (4) facing away from the conductor rail (6) comprises an alternating tongue-and-groove-like structuring.
4. The electrical connection terminal according to one of the preceding claims, wherein the second terminal (3) comprises a detent element (12) to lock the connecting element (4) in place, the detent element (12) can act against the connecting element (4), and the detent element (12) is arranged in the region of the second terminal (3) adjacent to the wall (1).
5. The electrical connection terminal according to Claim 4, wherein, in the region of the wall (1), the connecting element (4) can be introduced at least in part into the detent element (12).
6. The electrical connection terminal according to Claim 4 or 5, wherein, when the first terminal (2) and second terminal (3) are interconnected, the front portion (9) of the connecting element (4) is introduced through the detent element (12) into the second terminal (3) in such a way that only the rear portion (11) of the connecting element (4) bears at least in part against the detent element (12).
7. The electrical connection terminal according to one of Claims 4 to 6, wherein, when the first terminal (2) and second terminal (3) are interconnected, the surface of the detent element (12) facing towards the introduced connecting element (4) comprises an at least partly alternating tongue-and-groove-like structuring and the groove and the tongue of the detent element (12) bears correspondingly against the tongue and groove of the rear portion (11) of the connecting element (4).
8. The electrical connection terminal according to one of the preceding claims, wherein the connecting element (4) has a rectangular profile.
9. The electrical connection terminal according to one of the preceding claims, wherein the first terminal (2) comprises a first connection element (7), the second terminal (3) comprises a second connection element (8), the conductor rail (6) is fixedly connected to the first connection element (7) or to the second connection element (8), and the conductor rail (6) is releasably connected to the second connection element (8) or to the first connection element (7) respectively.
10. The electrical connection terminal according to Claim 9, wherein a releasable connection of the conductor rail (6) to the first connection element (7) or to the second connection element (8) can be produced by clamping.
11. The electrical connection terminal according to Claim 9 or 10, wherein the first connection element (7) and/or the second connection element (8) is/are formed as a screw connection element.

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