This application is a U.S. National Phase application under 35 U.S.C. § 371 of International Application No. PCT/EP2018/066912, filed on Jun. 25, 2018, and claims benefit to Belgian Patent Application No. BE 2017/5499, filed on Jul. 14, 2017. The International Application was published in German on Jan. 17, 2019 as WO 2019/011635 under PCT Article 21(2).
The invention relates to a connection device.
Such a connection device serves for the connection of an electrical line. Such a connection device can be used, for example, on an electrical installation, a switchgear cabinet or another electrical assembly, such as a printed circuit board or the like, in order to electrically connect an electrical conductor by inserting the conductor into an insertion opening.
Such a connection device comprises a housing, which has an insertion opening for inserting an electrical conductor, and a spring element arranged on the housing, which spring element has a spring leg for locking a conductor inserted into the insertion opening. An adjusting element is adjustably arranged on the housing such that, by adjusting the adjusting element, the spring leg can be moved between a clamping position in which a conductor inserted into the insertion opening can be locked in the insertion opening, and a release position in which a conductor can be inserted into the insertion opening or a conductor inserted into the insertion opening can be released from the insertion opening.
In conventional connection devices of this type, it can be provided that the slide element is to be acted upon by means of a tool in order thereby to adjust the spring leg of the spring element. This may require a user to hold the connection device and any electrical conductor to be attached, as well as the tool, in his hands simultaneously and to actuate them, which can be cumbersome and impractical.
There is therefore a need for a connection device which allows easy handling by a user, especially for inserting an electrical conductor or for releasing an electrical conductor from the connection device.
In a connection device known from U.S. Pat. No. 8,113,858, a spring element is arranged in a housing and can be adjusted by a manually operable slider element. The slider element is designed to act on the spring element in order to enable a conductor to be plugged in, wherein the spring element locks the electrical conductor on the housing in an electrically contacting manner after the conductor has been attached and after the slider has been retracted.
In a connection device known from DE 20 2009 007 573 U1, a slide element is provided which is adjustable for adjusting a spring leg of a spring element.
In a connection device known from DE 10 2015 115 612 A1 in the form of a connecting terminal, a connecting element is formed on a spring leg of a spring element via which the spring leg is coupled to an actuation element in the form of a pivot lever such that the spring leg can be pulled out of a clamping position in the direction of a release position by pivoting the actuation element.
In the connection device known from DE 10 2015 115 612 A1, the connecting element is formed integrally with the spring leg by bending the spring element made as a punch part from spring steel. Also depending on the rolling direction of the spring steel, a relatively large bending radius can also be required for such a bend, which can increase the installation space of the spring element.
In an embodiment, the present invention provides a connection device for connection of an electrical conductor, comprising: a housing which has an insertion opening for insertion of an electrical conductor; a spring element arranged on the housing, which spring element has a spring leg configured to lock a conductor inserted in the insertion opening; and an adjusting element which is arranged adjustably on the housing, wherein by adjustment of the adjusting element, the spring leg is movable between a clamping position in which a conductor inserted in the insertion opening is lockable in the insertion opening, and a release position in which a conductor may be inserted into the insertion opening, or a conductor inserted in the insertion opening is releasable from the insertion opening, wherein the spring element has an actuation section arranged on the spring leg on which the adjusting element is configured to act during an adjustment for the movement of the spring leg, and on which a support section is formed which is configured to bear against the spring leg at a support point when the spring leg is moved.
The present invention will be described in even greater detail below based on the exemplary figures. The invention is not limited to the exemplary embodiments. Other features and advantages of various embodiments of the present invention will become apparent by reading the following detailed description with reference to the attached drawings which illustrate the following:
In an embodiment, the present invention provides a connection device for the connection of an electrical conductor which can easily be actuated for adjusting a spring element between a clamping position and a release position, with easy manufacturability of the spring element and with favorable loading capacity, even with repeated actuation during operation.
Accordingly, the spring element has an actuation section which is arranged on the spring leg and on which the adjusting element acts during an adjustment for moving the spring leg, and on which a support section is formed which is designed to bear against the spring leg at a support point when the spring leg is moved.
The adjustment of the spring leg can be effected by actuation of the adjusting element. In this case, the adjusting element acts on the actuation section formed on the spring leg in order to apply thereby an adjusting force to the spring leg and to adjust the spring leg.
In order to specify a defined pivot axis for adjusting the spring leg, the support section is formed on the actuation section. The support section is designed to bear against the spring leg when the spring leg is moved so that the support section presses on the spring leg and thereby creates a defined pivot point for the spring leg.
Due to the fact that a defined pivot point is created on the spring leg by means of the support section and can preferably be located in a loadable region of the spring leg, the load on the spring leg occurs during bending at a defined location in a defined manner so that the load in other regions of the spring leg can be reduced, thus enabling a reduction in the dimensioning of the spring leg in other regions.
In particular, the spring leg can be dimensioned with a reduced cross section at the location at which the actuation section extends from the spring leg, which makes it possible to keep the installation space of the spring element small—despite a large bending radius which may be required at the transition between the spring leg and the actuation section.
The adjusting element can be designed especially to act on the actuation section in order to move the spring leg in the direction of the release position. By adjustment of the adjusting element, the spring leg can thus be transferred from its clamping position into the release position by the adjusting element acting on the actuation section, for example by pressing on the actuation section or pulling on the actuation section, so that the spring leg is thereby moved. When the adjusting element is adjusted, the spring leg is preferably pivoted relative to the housing about a pivot axis pointing through the support point, so that the spring leg executes a defined pivoting movement when the adjusting element is actuated.
In one embodiment, the support section does not bear against the spring leg when the spring element is in the clamping position. Only when the spring leg is moved, which is caused by an adjustment of the adjusting element, does the support section bear against the spring leg at the support point, so that the spring leg can be pivoted out of the release position in the direction of the clamping position about a defined pivot axis which points through the support point.
In one embodiment, the actuation section is integrally formed with the spring leg. The spring element can in particular be produced as a whole from spring steel. In this case, the actuation section is preferably formed by bending at the spring leg. This results in a simple, economical manufacturability of the spring element, with integral, one-piece shaping of the spring leg with the actuation section and the supporting section formed thereon.
In one embodiment, the spring element has a retaining leg which is attached to the spring leg. The spring element is supported relative to the housing via the retaining leg, for example by the retaining leg engaging with a current bar which holds the retaining leg in position within the housing.
The current bar can, for example, form a contact section for contact with a conductor inserted into the insertion opening. The current bar may have an L-shape with a base relative to which the contact section is transversely extended. In this case, a terminal for the connection of a plug-in connector for electrical contact can also be formed on the base with a line connected to the connection device.
The retaining leg may, for example, be bent relative to the spring leg. The support section of the actuation section can extend in this case from the actuation section toward the transition between the spring leg and the retaining leg and cooperate with the spring leg in a supporting manner at an end remote from the actuation section so that as a result, a pivot axis pointing through the support point is established for pivoting the spring leg.
In one embodiment, the retaining leg is bent around a first bending axis relative to the spring leg. In contrast, the actuation section is bent relative to the spring leg around a second bending axis that is transversely oriented relative to the first bending axis. From the actuation section, the support section preferably extends in the direction of the transition from the spring leg to the retaining leg.
The adjusting element can be designed, for example, as a lever element and can be arranged on the housing to pivot about a pivot axis. In this case, the adjusting element can have, for example, an operative section eccentric to the pivot axis with which the adjusting element acts upon the actuation section during an adjustment in order to thereby deflect the spring leg and adjust it between its clamping position and the release position.
Formed on the power bar 13 is a terminal 132 to which a connector of an associated electrical assembly can be connected. The connection device 1 can, for example, be a component of an electrical installation, for example on a switchgear cabinet, and allow an electrical conductor 2 to be connected to the electrical installation.
A spring element 11 is enclosed in the housing 10 and is supported via a retaining leg 110 on a base 131 of the current bar 13 and has a spring leg 111 for locking an electrical conductor 2 inserted into the insertion opening 100. The spring element 11 engages in an associated housing receptacle 102 of the housing 10 with a bending section 116 at which the spring leg 111 is bent relative to the retaining leg 110 and is thereby enclosed within the housing 10.
The spring leg 111 is adjustable between different positions. The figures labeled “A” (
The connection device 1 has an adjusting element 12 in the form of a lever element which is pivotably mounted on the housing 10 about a pivot axis 120. The adjusting element 12 has a handle section 121 that a user can manually grasp in order to adjust the adjusting element 12 relative to the housing 10. The adjusting element 12 acts on an actuation section 112 of the spring element 111 via an operative section 122, which is realized by an eccentric cam, in order to thereby pivot the spring leg 111.
As can be seen from the separate view of the spring element 11 according to
The actuation section 112 is bent around a bending axis B2 relative to the spring leg 111. The bending axis B2 at the transition between the actuation section 112 and the spring leg 111 extends transversely to a bending axis B1 around which the spring leg 111 is bent relative to the retaining leg 110 at the bending section 116.
A surface section 115 is formed on the actuation section 112 and provides a contact surface for the operative section 122 of the adjusting element 12 so that, when the adjusting element 12 is pivoted, the operative section 122 acts on the surface section 115 and thereby generates leverage on the spring leg 111, as a result of which the spring leg 111 is pivoted out of the clamping position in the direction of the release position.
A support section 113 is formed on the actuation section 112 and extends from the actuation section 112 toward the bending section 116 at the transition between the spring leg 111 and the retaining leg 110 and thus projects from the actuation section 112 along the bending axis B2. The support section 113 is designed to bear against the spring leg 111 at a support point 114 when the adjusting element 12 acts on the surface section 115 in order to thereby establish a pivot axis D for pivoting the spring leg 111 out of the clamping position in the direction of the release position.
As can be seen from the transition, for example, from
Because the spring leg 111 is pivoted out of its clamping position about a defined pivot axis D established by the support via the support section 113, a load is exerted on the spring leg 111 upon bending especially in the region of the pivot axis D, but less in other sections, especially in the region of the transition from the spring leg 111 to the actuation section 112. This makes it possible, as can be seen from the separate view of the spring element 11 according to
As can be seen from
By adjusting the adjusting element 12 for moving the spring leg 111 out of its clamping position, the spring leg 111 is tensioned. If the adjusting element 12 is then reset, the spring leg 111 automatically returns to the clamping position due to its elastic tension and clamps an electrical conductor 2 inserted into the insertion opening 100 within the housing 10 so that a (stripped) conductor end 20 of the conductor 2 is pressed into electrically contacting contact with the contact section 130.
The connection device 1 can also permit direct insertion of an electrical conductor 2 without having to actuate the adjusting element 12 for moving the spring leg 111 out of the clamping position. For this purpose, an electrical conductor 2, for example with a ferrule attached to the conductor end 20, can be inserted into the insertion opening 100 when the spring leg 111 is in the clamping position. As a result, the spring leg 111 is deflected due to the pressing action of the conductor 2 so that the support section 113 bears against spring leg 111 at the support point 114, and thus the spring leg 111 is pivoted about a defined pivot axis D.
The idea behind the invention is not limited to the exemplary embodiments described above but can also be realized in a completely different manner.
A connection device of the type described here can be used to connect an electrical conductor to any desired electrical assembly. In this case, the connection device can have a connection (additional to the spring force connection) for the connection of a plug connector. However, this is not mandatory. A current bar of the connection device can also be connected to an electrical assembly in some other way.
In the exemplary embodiment described here, the adjusting element for adjusting the spring element is pivotable. However, it is also conceivable and possible to displaceably arrange the adjusting element on the housing, for example.
In the described exemplary embodiment, the adjusting element exerts pressure on an actuation section on the spring leg. However, a coupling is also conceivable with which, for example, a tensile force is transmitted from the adjusting element to the spring leg.
While the invention has been illustrated and described in detail in the drawings and foregoing description, such illustration and description are to be considered illustrative or exemplary and not restrictive. It will be understood that changes and modifications may be made by those of ordinary skill within the scope of the following claims. In particular, the present invention covers further embodiments with any combination of features from different embodiments described above and below. Additionally, statements made herein characterizing the invention refer to an embodiment of the invention and not necessarily all embodiments.
The terms used in the claims should be construed to have the broadest reasonable interpretation consistent with the foregoing description. For example, the use of the article “a” or “the” in introducing an element should not be interpreted as being exclusive of a plurality of elements. Likewise, the recitation of “or” should be interpreted as being inclusive, such that the recitation of “A or B” is not exclusive of “A and B,” unless it is clear from the context or the foregoing description that only one of A and B is intended. Further, the recitation of “at least one of A, B and C” should be interpreted as one or more of a group of elements consisting of A, B and C, and should not be interpreted as requiring at least one of each of the listed elements A, B and C, regardless of whether A, B and C are related as categories or otherwise. Moreover, the recitation of “A, B and/or C” or “at least one of A, B or C” should be interpreted as including any singular entity from the listed elements, e.g., A, any subset from the listed elements, e.g., A and B, or the entire list of elements A, B and C.
Number | Date | Country | Kind |
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2017/5499 | Jul 2017 | BE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2018/066912 | 6/25/2018 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2019/011635 | 1/17/2019 | WO | A |
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Number | Date | Country | |
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20200136276 A1 | Apr 2020 | US |