CN115832724A - Compact conductor connection terminal - Google Patents

Abstract

The invention relates to a conductor connecting terminal, comprising: a housing having a conductor receiving space accessible via the conductor introduction opening for receiving an electrical conductor; a current bar disposed in the conductor receiving space; a clamping spring arranged in the housing, having an abutment leg and a clamping leg connected to the abutment leg and being operable between a release state in which an electrical conductor can be introduced into and/or withdrawn from the conductor receiving space and a clamping state in which the clamping leg exerts a force on the electrical conductor; and an operating element which has an actuating section and a pressing section which is in contact with the clamping leg and can be moved parallel to the conductor insertion direction between a clamping position and a release position, by switching the operating element from its clamping position into the release position, exerting a force on the clamping leg by means of the pressing section and switching the clamping spring from its clamping state into the release state, the conductor connection terminal being characterized in that the operating element has a receiving groove for receiving the clamping spring.

Description

Compact conductor connection terminal

Technical Field

The present invention relates to a conductor connection terminal.

Background

Conductor connection terminals are known from the prior art, by means of which an electrical conductor can be reversibly electrically connected to an electrical contact.

DE 10 2008 062 137 A1 describes a conductor connection terminal having an insulating material housing and at least one clamping point for an electrical conductor, each of which has a conductor insertion opening in the insulating material housing and a clamping spring, which projects with clamping legs into the conductor insertion opening for clamping the electrical conductor guided into the conductor insertion opening, wherein an actuating plunger is provided for actuating the at least one clamping spring, each actuating plunger being mounted movably in an actuating opening arranged adjacent to the conductor insertion opening and having a spring contact section which comes into contact with the clamping spring for actuation when moved in the direction of the clamping spring and an actuating section which is opposite the spring contact section and can be accessed from the outside of the insulating material housing.

The conductor connection terminal described in DE 10 2008 062 137 A1 has relatively large outer dimensions. Depending on the field of application of the conductor connection terminal, there are space conditions that are limited in height, as a result of which the conductor connection terminal described in DE 10 2008 062 137 A1 is constructed too large for various application purposes or fields of application.

Disclosure of Invention

The invention aims to provide a compact conductor connecting terminal with small external dimension. This object of the invention is achieved by a conductor connection terminal having the features of claim 1. Advantageous embodiments of the conductor connecting terminal are described in the dependent claims.

More specifically, the object of the present invention is achieved by a conductor connection terminal having a housing with a conductor receiving space accessible via a conductor lead-in opening for receiving an electrical conductor, wherein the conductor can be introduced into the conductor receiving space in a conductor insertion direction. The conductor connection terminal also has a current bar arranged in the conductor receiving space for contacting an electrical conductor introduced into the conductor receiving space via the conductor lead-in opening. The conductor connecting terminal furthermore has a clamping spring arranged in the housing, which clamping spring has an abutment leg and a clamping leg connected to the abutment leg by means of a bending joint, wherein the clamping spring can be actuated between a release state, in which the electrical conductor can be introduced into and/or removed from the conductor receiving space, and a clamping state, in which the clamping leg exerts a force on the electrical conductor introduced into the conductor receiving space in the direction of the current bar. The conductor connecting terminal furthermore has an actuating element with an actuating section and a push section which can be brought into contact with the clamping leg, wherein the actuating element can be moved parallel to the conductor insertion direction between a clamping position and a release position, and wherein by shifting the actuating element from its clamping position into the release position, a force is applied to the clamping leg by means of the push section and the clamping spring is shifted from its clamping state into the release state. The conductor connecting terminal according to the invention is characterized in that the operating element has a receiving groove for receiving the clamping spring.

The conductor connecting terminal according to the invention has the advantage that, since the clamping spring is accommodated in the accommodating groove of the actuating element, the clamping spring can be positioned relative to the actuating element in such a way that the actuating element and the clamping spring share a spatial region inside the housing, whereby the housing of the conductor connecting terminal and therefore the conductor connecting terminal are constructed smaller/more compact.

The housing is preferably formed of an electrically insulating material. The housing may also be referred to as an insulating material housing.

The electrical conductor can be inserted/pushed into the conductor receiving space via the conductor lead-in opening along the conductor insertion direction.

The current bar has a region which is electrically conductive at least in the contact region. Preferably, the current bar is formed from an electrically conductive material, such as a metal. Furthermore, the current bar is electrically connected to another electrical contact device, for example an electrical contact pin and/or an electrical contact socket.

The actuating section of the actuating element may also be referred to as an actuating section. The pushing section may also be referred to as a pushing section.

Preferably, the push section of the actuating element is always in contact with the clamping leg of the clamping spring. The actuating section of the actuating element is thus in contact with the clamping leg of the clamping spring both in the released state and in the clamped state of the clamping spring.

In the clamped position of the operating element, the operating element preferably protrudes from an end face of the housing. In the release position of the actuating element, the actuating element preferably does not protrude from the end face of the housing.

Preferably, the bending joint of the clamping spring is deformed by a transition from the clamping state to the release state, such that the abutment leg and the clamping leg of the clamping spring enclose a smaller angle with one another in their release state than in the clamping state of the clamping spring.

The receiving groove of the actuating element can also be referred to as a clamping spring receiving groove. The receiving groove defines a clamping spring receiving space inside the operating element.

The receptacle of the actuating element is preferably formed by two side walls, a rear wall arranged between the two side walls and a top wall of the actuating element.

Preferably, the conductor connecting terminal is formed such that the clamping spring is at least partially arranged in the receiving groove at least in the release position of the operating element.

Preferably, a majority, preferably more than 50%, further preferably more than 60%, further preferably more than 70%, further preferably more than 80%, further preferably more than 90% and further preferably the entire clamping spring is arranged in the receiving groove of the operating element when the operating element is in the release position.

Further preferably, the conductor connecting terminal is formed such that in the clamping position of the operating element at least the bent tab of the clamping spring is arranged in the receiving groove of the operating element.

In a corresponding design of the conductor connection terminal, the conductor connection terminal is very compact.

Further preferably, the conductor connecting terminal is formed such that the actuating section of the actuating element and the bending tab of the clamping spring are arranged with respect to one another such that a connecting line from the actuating section to the bending tab extends parallel to the conductor insertion direction.

By means of a corresponding design of the conductor connecting terminals, the space of the conductor connecting terminals inside the housing is particularly advantageously utilized, so that the correspondingly formed conductor connecting terminals are particularly compactly formed.

Preferably, the conductor connection terminal is formed such that the operating element has at least one sliding track which bears against a sliding edge of the current bar and/or of the housing, wherein the sliding track slides along the sliding edge when the operating element is moved between its clamping position and its release position.

By means of a corresponding design of the conductor connecting terminal, a guidance of the operating element is achieved during the movement between the clamping position and the release position, so that a reliable function of the conductor connecting terminal is ensured.

It is further preferred that the conductor connecting terminal is formed in such a way that the current bar is U-shaped and has a rear wall and two side walls connected to the rear wall, wherein the end edges of the side walls are formed as sliding edges, wherein the two sliding rails of the operating element bear against the sliding edges.

The correspondingly formed conductor connection terminal is particularly compact because the function of the sliding edge is performed by the current bar. Furthermore, since the current bar is embodied in a U-shape, a reliable contacting of the electrical conductor introduced into the conductor connection terminal is again achieved.

The rear wall may also be referred to as a contact wall and/or a contact plate. The side walls may also be referred to as side panels. The end edges of the side walls are preferably parallel to each other.

Preferably, the conductor connection terminal is formed such that the operating element has a recess oriented towards the conductor receiving space.

By a corresponding design of the conductor connection terminal, the conductor connection terminal is constructed more compact, since the distance between the electrical conductor introduced into the conductor receiving space and the operating element can be reduced. Furthermore, the introduction of the electrical conductor into the conductor receiving space is achieved more easily, since the electrical conductor is also guided by the recess provided in the operating element when it is introduced into the conductor receiving space.

It is further preferred that the conductor connecting terminal is formed in such a way that the housing has at least one guide groove and the operating element has at least one guide rib arranged in the guide groove, so that the operating element can be moved between the clamping position and the release position by means of the guide groove and the guide rib.

The guide groove therefore preferably has a longitudinal extension parallel to the conductor insertion direction.

By means of a corresponding design of the conductor connecting terminal, the operating element is guided in the movement between the clamping position and the release position, so that a reliable functionality of the conductor connecting terminal is ensured.

Drawings

Further advantages, details and features of the invention are given below by the illustrated embodiments. In which are shown in detail:

fig. 1 shows a three-dimensional view of a conductor connection terminal according to the invention with a partially cut-away housing, the operating element of the conductor connection terminal being in its clamped state;

fig. 2A shows a three-dimensional view of the operating element of the conductor connecting terminal viewed from the front of the operating element;

fig. 2B shows a three-dimensional view of the operating element shown in fig. 2A, viewed from the back side of the operating element;

FIG. 2C shows a front view of the operative elements shown in FIGS. 2A and 2B;

fig. 2D shows a side view of the operating element shown in fig. 2A to 2C;

FIG. 2E shows a side cross-sectional view of the operative element shown in FIG. 2D;

fig. 2F shows a top view of the operating element shown in fig. 2A to 2E from above;

fig. 3A shows a side sectional view of the operating element shown in fig. 2A to 2F in its clamping position with the clamping spring partially accommodated in the accommodating groove of the operating element and in its clamped state, wherein the remaining components of the conductor connecting terminal according to the invention are not shown;

FIG. 3B shows the operating element shown in FIG. 3A in its released position with the clamping spring mostly in its receiving slot of the operating element and in its released state;

fig. 4 shows a side sectional view of an electrical conductor introduced into a conductor connecting terminal according to the invention, which operates a clamping spring toward its released state, wherein the clamping spring is arranged for the most part in a receiving groove of an operating element in the released position, and wherein the remaining components of the conductor connecting terminal are not shown; and is

Fig. 5 shows a side sectional view of a part of the conductor connection terminal shown in fig. 4, wherein the operating element is pressed further into the housing of the conductor connection terminal towards its release position.

Detailed Description

In the following description, the same reference numerals are used for the same components or the same features, so that the description of one drawing with respect to the components is also applicable to other drawings, thereby avoiding repetitive description. Furthermore, individual features described in connection with the embodiments can also be applied separately in other embodiments.

Fig. 1 shows a three-dimensional view of a conductor connection terminal 1 according to the invention. The conductor connection terminal 1 has a housing 10, which is shown in fig. 1 in a partially sectioned form. The housing 10, which is formed from an electrically insulating material or at least comprises an electrically insulating material, has a conductor insertion opening 11, through which conductor insertion opening 11 a conductor receiving space 12 of the housing 10 can be accessed. The electrical conductor L shown in fig. 4 and not shown in the other figures can be introduced into the conductor receiving space 12 via the conductor lead-in opening 11, in particular by introducing or pushing the electrical conductor L into the conductor receiving space 12 in the conductor insertion direction R.

Furthermore, the conductor connection terminal 1 has a current bar 20 arranged in the conductor receiving space 12, the current bar being formed for contacting the electrical conductor L introduced into the conductor receiving space 12 via the conductor introduction opening 11. In the embodiment shown, the current bar 20 is formed in a U-shape and has a rear wall 21 and two side walls 22 connected to the rear wall 21. The current bar 20 is made of an electrically conductive material, for example of steel plate. Furthermore, the current bar 20 is electrically connected to a further electrical contact device, for example an electrical contact pin and/or an electrical contact socket, wherein the further electrical contact device is not shown in the figures.

Furthermore, a clamping spring 30 is arranged in the housing 10. The clamping spring 30 is not visible in fig. 1, but is shown in a side sectional view together with the operating element 40 in fig. 3A, 3B and 4. The clamping spring 30 has an abutment leg 31 and a clamping leg 32, wherein the abutment leg 31 and the clamping leg 32 are connected by a bending joint 33. The clamping spring 30 is operable between a released state shown in fig. 3B and 4 and a clamped state shown in fig. 3A. In the released state of the clamping spring 30, the electrical conductor L can be introduced into and/or removed from the conductor receiving space 12. In the clamped state of the clamping spring 30, the clamping leg 20 exerts a force on the electrical conductor L introduced into the conductor receiving space 12 in the direction of the current bar 20, in particular in the direction of the rear wall 21 of the current bar 20. The clamping leg 32 projects further in the clamping state of the clamping spring 30 than in its release state in the direction of the rear wall 21 of the current bar 20.

As can be seen from fig. 3A and 3B, the bending joint 33 of the clamping spring 30 is deformed by the transition from the clamping state shown in fig. 3A to the release state shown in fig. 3B, so that the contact leg 31 and the clamping leg 32 of the clamping spring 30 enclose a smaller angle with one another in their release state than in the clamping state of the clamping spring 30.

The conductor connecting terminal 1 also has an actuating element 40, which has an actuating section 41 and a pressing section 42. As can be seen from fig. 3A, 3B and 4, the push section 42 is in contact with the clamping leg 32. An operating element 40, which may also be referred to as a pushing element 40 or pusher 40, is movably arranged in the housing 10. The operating element 40 is moved parallel to the conductor insertion direction R between a clamping position of the operating element 40 and a release position of the operating element 40. In this case, by shifting the actuating element 40 from its clamping position shown in fig. 3A into its release position shown in fig. 3B, the clamping leg 32 of the clamping spring 30 is acted upon by the pressing section 42, so that the clamping spring 30 is shifted from its clamping state into the release state.

As can be seen from fig. 1, in the clamped position of the operating element 40, the operating element protrudes from an end face of the housing 10. In the release position of the actuating element 40, the actuating element preferably does not protrude from the end face of the housing 10.

As can be seen from fig. 3A, 3B and 4, the actuating section 41 of the actuating element 40 and the bending tab 33 of the clamping spring 30 are arranged relative to one another in such a way that a connecting line from the actuating section 41 to the bending tab 43 runs parallel to the conductor insertion direction R. Thus, the movement of the operating element 40 is completed parallel to the insertion direction R.

The actuating element 40 has a receiving groove 43 for receiving the clamping spring 30. The receiving groove 43, which can also be referred to as a clamping spring receiving groove 43, defines a clamping spring receiving space 43 in which the clamping spring 30 can be at least partially received. As can be seen in particular from fig. 2B, in the embodiment shown, the accommodating groove 43 is formed by two side walls, a rear wall arranged between the two side walls and a top wall of the operating element 40.

As shown in fig. 3A, in the clamped position of the actuating element 40 and thus in the clamped state of the clamping spring 30, the bent tab 33 of the clamping spring 30 is accommodated or arranged in the accommodating groove 43. By shifting or pressing down the actuating element 40 into the release position shown in fig. 3B, the clamping spring 30 is further accommodated in the accommodating groove 43, so that in the release position of the actuating element 40 and thus in the release state of the clamping spring 30 associated therewith, the clamping spring is largely accommodated or arranged in the accommodating groove 43.

As can be seen from fig. 5, by pressing the actuating element 40 further into the housing 10, which is not shown in fig. 5, in the direction of its release position, the bending tab 33 of the clamping spring 30 is positioned further toward the actuating section 41 and therefore in the opening of the actuating element 40, which opening is arranged below the actuating section 41. By means of a corresponding design of the operating element 30, the entire conductor connection terminal 1 is very compact.

In the exemplary embodiment shown, the actuating element 40 has two sliding rails 44, which each rest against a sliding edge 23 of the current bar 20. In this case, the end edges 23 of the side walls 22 of the current bar 20 are formed as sliding edges 23. When the operating element 40 is moved between its clamping position and its release position, the slide rail 44 slides along the slide edge 23, so that the guidance of the operating element 40 by the current bar 20 is completed.

The housing 10 also has two guide grooves 13 in which guide ribs 46 of the operating element 40 are each movably arranged. Thus, the operating element 40 can be movably guided between its clamping position and its release position by the guide groove 13 and the guide rib 46.

Furthermore, the actuating element 40 has two support surfaces 47, which prevent the actuating element 40 from falling out of the housing 10. For this purpose, a closure cap, not shown in the figures, is preferably also placed on the housing 10, which prevents the operating element 40 from falling off by means of the bearing surface 17 resting against a retaining means (for example in the form of a further bearing surface or bearing projection) arranged in the closure cap, as soon as the operating element 40 is in danger of slipping off from the housing 10.

As can be seen from the figure, the operating element 40 also has a conductor receiving recess 45 oriented towards the conductor receiving space 12. Due to the provision of the conductor receiving groove 45, the entire conductor connecting terminal 1 is constructed more compactly, because the distance between the electric conductor L introduced into the conductor receiving space 12 and the operating element 40 can be reduced. Furthermore, since the electrical conductor L is also guided by the conductor receiving recess 45 provided in the operating element 40 when it is introduced into the conductor receiving space 12, the introduction of the electrical conductor L into the conductor receiving space 12 is more easily achieved.

Description of the reference numerals

1. Conductor connecting terminal

10 Case (of conductor connecting terminal)

11 Conductor lead-in opening (of casing)

12 Conductor receiving space (of housing)

13 Guide groove (of housing)

20. Current bar

21 Rear wall (of current bar)

22 Side wall (of current bar)

23 Sliding edge/(of side wall) end edge (of current bar)

30. Clamping spring

31 (of clamping springs) abutment legs

32 Clamping leg (of a clamping spring)

33 (of clamping springs) bending joints

40. Operating element

41 Operating section (of an operating element)

42 Pressing section (of the operating element)

43 Receiving groove/clamping spring receiving space (of the operating element)

44 Sliding rail (of operating element)

45 Conductor receiving recess/recess (of operating element)

46 Guide rib (of operating element)

47 Support surface (of operating element)

L-shaped electric conductor

R conductor insertion direction

Claims (6)

1. A conductor connection terminal having:

-a housing (10) having a conductor receiving space (12) accessible via a conductor introduction opening (11) for receiving an electrical conductor (L), wherein the conductor (L) is introducible into the conductor receiving space (12) along a conductor insertion direction (R);

-a current bar (20) arranged in the conductor receiving space (12) for contacting an electrical conductor (L) introduced into the conductor receiving space (12) via the conductor introduction opening (11);

-a clamping spring (30) arranged in the housing (10) having an abutment leg (31) and a clamping leg (32) connected to the abutment leg by a bent joint (33), wherein the clamping spring (30) is operable between a released state in which an electrical conductor (L) can be introduced into and/or led out of the conductor receiving space (12) and a clamped state in which the clamping leg (32) exerts a force on the electrical conductor (L) introduced into the conductor receiving space (12) in the direction of the current bar (20); and

-an operating element (40) having an actuating section (41) and a pushing section (42) which can be brought into contact with the clamping leg (32), wherein the operating element (40) can be moved parallel to the conductor insertion direction (R) between a clamping position and a release position, and wherein by switching the operating element (40) from its clamping position into the release position, a force is applied to the clamping leg (32) by means of the pushing section (42) and the clamping spring (30) is switched from its clamping state into the release state,

wherein the operating element (40) has a receiving groove (43) for receiving the clamping spring (30),

wherein the conductor connection terminal (1) is characterized in that the operating element (40) has at least one sliding rail (44) which bears against the sliding edge (23) of the current bar (20) and/or the housing (10), wherein the sliding rail (44) slides along the sliding edge (23) when the operating element (40) is moved between its clamping position and its release position, and the current bar (20) is formed in a U-shape and has a rear wall (21) and two side walls (22) connected to the rear wall (21), wherein the end edges (23) of the side walls (22) are formed as sliding edges (23), wherein the two sliding rails (44) of the operating element (40) bear against the sliding edges (23).

2. Conductor connecting terminal (1) according to claim 1, characterized in that the clamping spring (30) is at least partially arranged in the accommodating groove (43) at least when the operating element (40) is in the release position.

3. Conductor connecting terminal (1) according to one of the preceding claims, characterized in that in the clamping position of the operating element (40) at least the bent tab (33) of the clamping spring (30) is arranged in the receiving groove (43) of the operating element (40).

4. Conductor connecting terminal (1) according to one of the preceding claims, characterized in that the actuating section (41) of the operating element (40) and the bending tab (33) of the clamping spring (30) are arranged with respect to one another such that a connecting line from the actuating section (41) to the bending tab (33) runs parallel to the conductor insertion direction (R).

5. Conductor connecting terminal (1) according to one of the preceding claims, characterized in that the operating element (40) has a conductor receiving recess (45) oriented towards the conductor receiving space (12).

6. Conductor connecting terminal (1) according to one of the preceding claims, characterized in that the housing (10) has at least one guide groove (13) and the operating element (40) has at least one guide rib (46) arranged in the guide groove (13), so that the operating element (40) can be moved between the clamping position and the release position of the operating element by means of the guide groove (13) and the guide rib (46).

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