DE4231244C2 - Electrical connection terminal, in particular terminal block - Google Patents

Description

The invention relates to an electrical connection terminal, in particular a terminal block, with a spring clamp element for clamping an inserted electrical Conductor and with a terminal housing with a spring-loaded clamping element taking receiving space and an inlet opening for the electrical conductor in the receiving space, the spring force clamping element as an abutment for the Clamping the conductor-serving contact leg and applying the clamping force Genden clamping leg and wherein the clamping leg and a between the contact leg and the clamping leg arranged in the terminal housing fixed separating element together form a connection chamber for the conductor.

An electrical terminal of the type mentioned is already from DE 30 30 523 A1 known. In this known terminal, the spring force is clamping element on the designated as a contact element of a connecting element Separating element pushed on and locked with the contact element. With the known it is not possible to construct a second conductor particularly easy way to connect.

From DE 35 14 009 A1 there is a connection terminal for electrical conductors Known use of a so-called cage tension spring. From this contrast tion already emerges in principle, between a separating element and a Contact leg of the cage tension spring from a first connection chamber for a conductor to form while another connection chamber on the other side of the Separator is located. The cage tension spring has two leg ends as a clamp legs that are bent towards each other so that one leg end extends through a recess in the other leg end. Here presses one leg end on a solid conductor, while the other leg kelende pulls on a flexible ladder. For fixing or clamping the two Ladders must have two leg ends. Each head of a leg end assigned to the conductor are clamped. A sliding speed of the spring-loaded clamping element in the terminal housing comes from this opposite not emerge.  

Another spring-loaded terminal is an example known from DE-GM 77 28 519. With the electrical type disclosed there the end clamp is in itself only the spring-loaded clamping element without the This enclosing terminal housing made of insulating material works properly. The Fe derkraftklemmelement is bent in one piece from spring steel and as Box spring with internal clamping leg. The end of the inside lying clamping leg pushes you here through a passage opening in the bent contact leg inserted electrical conductor resilient and con tactile on the contact leg and clamps the conductor in the clamp leg and contact leg formed connection chamber firmly. Several derar term spring force clamping elements can be made in one piece with each other be arranged so that the introduced electrical conductors with are electrically connected to each other.

In the known electrical connection terminal, however, is in particular an off leadership provided as a terminal block, in which the spring clamp element is arranged in a terminal housing made of insulating material. In the terminal the housing is then a busbar, which is also connected to the Fe derkraftklemmelement must be electrically contacted. This is because of this realizes that at another point of the spring clamp element Clamp leg is bent and with a suitably trained further  Contact leg forms a further connection chamber into which the busbar is inserted in a contacting and clamping manner. This further connection chamber could basically also be used to connect a second conductor.

In a known from practice electrical connector, in particular which can be used as a terminal block, is a spring-loaded clamping element pull spring provided. This cage tension spring is bent in a ring and has a strip-shaped contact leg on the end of a current rail is arranged. Before the end of the investment leg and the end of the stream The clamping leg is curved, in which there is a passage opening for the inserted electrical conductor is formed. By Her suppress the clamping leg, the lower edge of the passage opening moved down and a conductor can pass through the opening under the end of the end of the busbar connected to the contact leg be performed. The clamping leg to be released again springs back and clamps the end of the conductor in the passage opening, namely di right towards the end of the track. In the previously explained, known from practice electrical connector with Cage tension spring as a spring force clamping element is a direct clamping of the En one of the conductors with the end of one with the spring clamp element connected busbar provided. The one existing clamping leg of the Spring clamp element can be exactly an inserted electrical conductor jam.

The general print which can be gathered from the prior art explained above zip for electrical terminals with spring clamp element that a Resilient clamping leg of the spring-loaded clamping element inserted exactly one can clamp electrical conductor is also with an electrical connection terminal clamp, in particular terminal block, realized in the two clamp leg for two inserted electrical conductors in one on the terminal housing separately stored spiral spring are summarized (DE 28 38 734 C2). Genes There is a need for electrical spring-loaded terminals that  simple construction allow the connection of two electrical conductors. There is a particular need for this in the case of terminal blocks, in which a Cross connection possibility for multiplication of potential over a cross bridge it is asked for. With previous spring-loaded terminals, one can Cross-connection option only either by training a second Clamp leg on the spring force clamping element itself or introduction of one of the Create the cross connection serving thread in an existing conductor rail. The former requires complicated cross-sectional shapes of the spring clamp element tes and prohibits the introduction of the second conductor, especially the cross bridge from the same side as the first (actual) conductor. The latter requires the presence of a corresponding busbar, makes the cutting of a thread in the conductor rail necessary and ver causes additional space requirements.

The invention has for its object an electrical terminal, Specifically, terminal block with a spring-cage to specify the the connection of two conductors allowed in a structurally particularly simple manner.  

Separating element and the contact leg a further connection chamber for a white teren conductor is formed in that the spring-loaded clamping element in the receiving space of the terminal housing and thus against the separating element at least by Thickness of the further conductor is displaceable. Also with the electri according to the invention In principle, the connection terminal remains the same for the spring-loaded connection terminal men recognized system that a clamping leg only exactly one introduced elek reliable conductor can clamp. The equally reliable clamping of a further electrical conductor with the same clamping leg is now fiction according to the art of one between the contact leg and the clamping leg ordered, movable separating element reached. The separating element works in the first Connection chamber consequently as a contact leg, in the second connection chamber against as a clamping leg. The clamping and contact force is determined from the and contact force derived from the actual clamping leg. With only one gene, actual clamping leg and in a correspondingly simple design of the Fe derkraftklemmelementes overall one can fiction by the displaceability accordingly clamp two conductors. In other words, in the the two connection chambers the contact pressure with a single clamping leg he is witnessed, the connection of the two conductors, however, independently happens. This is of particular importance in the context of the series described above Handle clamp arrangement for realizing a cross connection possibility. The second connection chamber can be used to insert the connection elements Cross bridge, especially the comb teeth of a comb-shaped insertion bridge ge be used.  

Preferred refinements and developments of the teaching explained above the invention are the subject of the dependent claims.

In the following the invention is based on an only one embodiment game representing drawing explained in more detail. Doing so at the same time also further preferred refinements and developments of the teaching of Invention explained with. In the drawing shows

Fig. 1 is a perspective view of a spring clamp element of an electrical connector according to the invention in connection with a busbar and

Fig. 2 shows an electrical terminal according to the invention in the form of a terminal block with two spring clamp elements arranged side by side in a terminal housing made of insulating material.

From Figs. 1 and 2 in connection, an electrical connection can be seen terminal which is to be used in particular as a terminal block. However, the invention can also be implemented if it is a normal electrical connection terminal, that is to say not a terminal block but, for example, a socket connection terminal or the like.

The core of such an electrical connection terminal is a spring-loaded clamping element 1 for connecting an inserted electrical conductor 2 . This is bent in one piece in the illustrated embodiment and after preferred ter design and consists of spring steel. As the executions make clear in the general part of the description, there are also spring force clamping elements which consist of a cage and a separate spring element. Even with electrical terminals with such Fe derkraftklemmelemente the teaching of the invention can be implemented.

Fig. 1 shows the spring clamp element 1 of an electrical terminal with a separating element of the type in question without a housing. Technically, a sol che electrical connection terminal is functional, for example, several such electrical connection terminals, each of which is formed by a spring-loaded clamping element 1 with a separating element, can be arranged next to one another in an insulating housing which then surrounds all connection terminals.

Fig. 2 makes frequent and also preferred embodiment of the electrical terminal clearly, the fact in addition to the spring force of the clamping element 1 with a separator or an existing made of insulating terminal housing 3 with a spring-force clamping element 1-receiving chamber 4 and an inlet opening 5 for the electrical conductor 2 in has the receiving space 4 . In accordance with the preferred embodiment of the electrical connecting terminal as a terminal block, the terminal housing 3 in the exemplary embodiment shown has a support foot 6 with which the terminal housing 3 can be snapped onto a mounting rail 7 . In the illustrated embodiment, two spring-loaded clamping elements 1 are arranged next to one another in the terminal housing 3 .

As shown in FIG. 1 and FIG. 2 show, the spring-force clamping element 1 of the OF INVENTION to the invention electrical terminal a with the interposition of the separating element 12 mung as an abutment for the Klem of the conductor 2 serving contact leg 8 and the conductor 2 resiliently against the contact limb 8 andrückenden clamping leg 9 on, clamping leg 9 and separating element 12 thus jointly form a connection chamber 10 for the conductor 2 . As is well known for terminals of the type in question really near det in the terminal housing 3 each spring-force clamping element 1 associated with an actuating element 11 with which the connecting chamber 10 can be opened by the clamping leg 9 against the spring force of the contact limb 8 pushed away and so an Insertion channel for conductor 2 can be released. The actuating element 11 also regularly consists of insulating material, here it is designed as a slide arranged in the terminal housing 3 . It can be seen in Fig. 2 for the illustrated left spring force clamping element 1 ment the Betätigungsele 11 in its release position and in the illustrated right spring force clamping member 1, the actuating element 11 in its operating position in which the conductor 2 can be inserted into the terminal chamber 10.

Between the contact leg 8 and the clamping leg of the spring clamp element is a relative to the terminal housing 3 and thus to the system leg 8 and the clamping leg 9 movable separating element 12 is arranged so that the connecting chamber 10 for the conductor 2 is formed between the clamping leg 9 and the separating element 12 and that between the separating element 12 and the contact leg 8, a further connection chamber 13 for a white direct conductor 14 is formed. In Fig. 1, the two connection chambers 10 , 13 are indicated by arrows, in Fig. 2 one can clearly see on the right the conductors 2 , 14 inserted into both connection chambers 10 , 13 . In this case 2 is in Fig. Not taken advantage of the further connecting chamber 13 in the illustrated left spring force clamping member 1, the clamp housing 3 is closed NaEM Lich at the corresponding location. In contrast, the terminal housing 3 in FIG. 2 on the right has a corresponding inlet opening 16 for the second conductor 14 .

It has already been stated that the spring-loaded clamping element 1 does not have to be bent in one piece from spring steel. Nevertheless, the natural Lich is particularly advantageous, Fig. 1 shows that the Federerkraftklemmele element 1 in the illustrated embodiment is designed as a box spring with the inside of the clamping leg 9 . This allows high clamping forces and a secure connection of both conductors 2 , 14 .

In principle, it is not absolutely necessary for the separating element 12 to be made of electrically conductive material; an electrically conductive connection between the two conductors 2 , 14 is already established by the spring-loaded clamping element 1 . Nevertheless, electrically conductive material for the separating element 12 is advantageous and also used in the exemplary embodiment shown.

In adaptation to the strip-shaped design of the position leg 8 of the spring-loaded clamping element 1 , the separating element 12 is the same if strip-shaped. It could now be bent out of the material of the spring-loaded clamping element 1 itself via a bending point guided as a film hinge. The only thing that is essential is the mobility of the separating element 12 relative to the rest of the spring-loaded clamping element 1 .

However, the illustrated embodiment is characterized by a different design, namely that the separating element 12 is formed by the end of a busbar 15 projecting into the spring-loaded clamping element 1 . The busbar 15 can be seen particularly well in Fig. 1, one knows it in Fig. 1 "behind" the other end of the busbar 15 , which is not covered there by a spring-loaded clamping element 1 , which then, Fig. 2, also with a complete electrical connection terminal a spring force clamping element 1 is provided. Such a busbar 15 is typical for feed-through terminals and other terminal blocks, it establishes the connection between various electrical clamping bodies, in particular spring-loaded clamping elements 1 . By using it as a separating element 12 , two things are achieved. On the one hand, the separating element 12 , which is movable with respect to the spring force clamping element 1, is realized in a simple manner, on the other hand, the conductors 2 , 14 are clamped directly against the element serving for the electrical connection, namely the busbar 15 . The contact resistance of the electrical connection terminal as a whole is therefore particularly low.

The exemplary embodiment shown in FIG. 2 shows the busbar 15 fixed in the terminal housing 3 . The Federkraftklemmele element 1 must be displaceable in the receiving space 4 of the terminal housing 3 so that the required mobility relative to the separating element 12 formed by the end of the busbar 15 is ensured. The displaceability is limited by the walls of the receiving space 4 . It can be seen in which these option-use spring-force clamping element 1 to the right in Fig. 2 that the Federkraftklemmele to ment 1 (the box spring) can move to the maximum thickness of the second conductor 14 to the right, while the inner clamping limbs 9 in addition to the maximum thickness of normal conductor 2 (the diameter) can move to the left.

By using the end of the busbar 15 as a separating element 12 , the width of the electrical terminal according to the invention by the connection possibility for the additional conductor 14 is hardly increased, also shows that the additional conductor 14 practically from the same side in the terminal housing 3 as the normal conductor 2 can be inserted. This is particularly useful for the design of the electrical connection terminal according to the invention as a terminal block. It can be seen in Fig. 2 that the second conductor 14 is formed by the comb teeth of a comb-shaped insertion bridge 17 , which can be arranged in the direction of travel of the mounting rail 7 in front of the terminal housings 3 for the production of cross-connections between adjacent connecting terminals.

Especially when using a comb-shaped insertion bridge 17 , the Anschlusskam mer 10 for the conductor 2 can have a larger maximum opening width than the further connection chamber 13 for the second conductor 14 . In order to facilitate the insertion of the second conductor 14 , it can be provided that the connection chamber 13 is opened by a certain, small amount without electrical conductors 2 , 14 being inserted.

If one assumes that a practical comb-shaped insertion bridge 17 has a thickness of the comb prong serving as the second conductor 14 of 0.5 mm, then a sufficient contact force must be present at the spring stroke of 0.5 mm. It is sufficient that the connection chamber 13 is already opened, for example, by 0.4 mm. Now you can easily thread the second conductor 14 into the connection chamber 13 with a point, in particular if, as here, an inlet bevel 18 is also provided on the connection chamber 13 . Over the remaining stroke of 0.1 mm, however, the sufficient contact force must then be established by means of the clamping leg 9 , since one must also assume that this contacting is necessary once if the connection chamber 10 is not designed with a conductor 2 .

Overall, an extremely simple, all-purpose electrical Connection terminal realized that the connection of two electrical Ladders with only one clamping leg allowed.

Claims (9)

1. Electrical terminal, in particular series terminal, clamping element with a spring force (1) for clamping an electrical conductor introduced (2) and with a clamping housing (3) with a spring-force clamping element (1) receiving the receiving space (4) and an inlet opening (5) for the electrical conductor ( 2 ) in the receiving space ( 4 ), the spring-loaded clamping element ( 1 ) having a bearing leg ( 8 ) serving as an abutment for the clamping of the conductor ( 2 ) and a clamping leg ( 9 ) applying the clamping force, and wherein the clamping leg ( 9 ) and between the contact leg ( 8 ) and the clamping leg ( 9 ) arranged, in the terminal housing ( 3 ) fixed separating element ( 12 ) together form a connection chamber ( 10 ) for the conductor ( 2 ), characterized in that between the separating element ( 12 ) and the contact leg ( 8 ) a further connection chamber ( 13 ) for a further conductor ( 14 ) is formed in that the Federkraftklemmele element ( 1 ) in the receiving space ( 4 ) of the terminal housing ( 3 ) and thus relative to the separating element ( 12 ) at least by the thickness of the further conductor ( 14 ) is displaceable. 2. Electrical terminal according to claim 1, characterized in that the spring-loaded clamping element ( 1 ) is designed as a box spring with an internal clamping leg ( 9 ). 3. Electrical connection terminal according to one of claims 1 or 2, characterized in that the separating element ( 12 ) consists of electrically conductive material. 4. Electrical connection terminal according to one of claims 1 or 3, characterized in that the separating element ( 12 ) is strip-shaped. 5. Electrical terminal according to one of claims 1 or 4, characterized in that the separating element ( 12 ) from the material of the spring-loaded clamping element ( 1 ) is bent out via a bending point designed as a film hinge. 6. Electrical connection terminal according to one of claims 1 or 4, characterized in that the separating element ( 12 ) from the in the spring force clamping element ( 1 ) protruding end of a busbar ( 15 ) is formed. 7. Electrical connection terminal according to claim 6, characterized in that the spring-loaded clamping element ( 1 ) is bent in one piece from spring steel and that the terminal housing ( 3 ) consists of insulating material. 8. Electrical connection terminal according to one of claims 1 to 7, characterized in that the connection chamber ( 10 ) for the conductor ( 2 ) has a larger maximum opening opening than the further connection chamber ( 13 ) for the second conductor ( 14 ). 9. Electrical terminal according to one of claims 1 to 8, characterized in that without an inserted electrical conductor ( 2 , 14 ) at least one connection chamber ( 13 ) is open to a certain extent.