DE102021108316A1 - Terminal and electronic device - Google Patents

Abstract

The invention relates to a connection terminal (100) for connecting an electrical conductor (200), with - a housing (110) having an interior (111), - a current bar (112) arranged in the interior (111) of the housing (110) which has a contact section (113) which has an upper side (114) against which the electrical conductor (200) is clamped in a connected state, and an underside (115) opposite the upper side (114), - one in the interior (111) of the housing (110) arranged clamping spring (116), which has a contact leg (117) and a clamping leg (118), wherein the clamping leg (118) can be transferred into an open position and into a clamping position, and a pivotably mounted, Actuating element (122) protruding into the interior (111) of the housing (110), by means of which a compressive force (D) is applied to the clamping leg (118) to transfer the clamping leg (118) from the clamping position to the open position - The housing (110) has a guide contour (123) formed in the interior (111) of the housing (110) for the pivotable mounting of the actuating element (122), along which the actuating element (122) is connected to an on the actuating element ( 122) formed sliding contour (128) slides along during a pivoting movement of the actuating element (122).

Description

The invention relates to a connection terminal for connecting an electrical conductor. The invention also relates to an electronic device with at least one such connection terminal.

A connection terminal for connecting an electrical conductor is, for example, from DE 10 2011 055 919 A1 known. This has a housing within which a current bar, a clamping spring for clamping a conductor against the current bar, and an actuating element for actuating the clamping spring are arranged. The clamping spring is designed as a leg spring and has a holding leg and a clamping leg. The clamping limb can be moved into a clamping position and into a release position, the actuating element being able to exert a force directly on the clamping limb in order to transfer it from the clamping position to the open position.

The invention is based on the object of providing a connection terminal and an electronic device which are distinguished by improved functionality.

According to the invention, this object is achieved with the features of the independent claims. Appropriate refinements and advantageous developments of the invention are specified in the subclaims.

The connection terminal according to the invention has a housing having an interior, a current bar which is arranged in the interior of the housing and has a contact section which has an upper side against which the electrical conductor is clamped in a connected state and an underside opposite the upper side, a clamping spring arranged in the interior of the housing, which has a contact limb and a clamping limb, wherein the clamping limb can be transferred into an open position and a clamping position, and a pivotably mounted actuating element protruding into the interior of the housing, by means of which for transferring the clamping limb from the clamping position in the open position a compressive force can be applied to the clamping leg, wherein the housing has a guide contour formed in the interior of the housing for the pivotable mounting of the actuating element, along which the actuating element with slides along a sliding contour formed on the actuating element during a pivoting movement of the actuating element.

The clamping spring is designed as a leg spring which has a clamping leg and a retaining leg, the clamping leg and the retaining leg being connected to one another via an arcuate section. The actuating element interacts with the clamping spring in such a way that the actuating element can apply a compressive force directly to the clamping limb in order to pivot the clamping limb at least from the clamping position into the open position. The actuating element can press directly against the clamping leg. The clamping position is the position in which the clamping leg, when no conductor is inserted, rests against the contact section of the current bar and when a conductor is inserted, the clamping leg clamps the conductor against the contact section of the current bar. In the open position, the clamping leg is spaced apart from the contact section of the current bar, so that a conductor can be inserted into the space or free space formed thereby between the clamping leg and the contact section, or can be guided out of this again. The actuating element is pivotably mounted, the actuating element according to the invention not having a fixed pivot axis via which the actuating element is pivotably mounted, but the actuating element is pivotably mounted in a freely floating manner in the interior of the housing in order to be able to execute the pivoting movement. For this purpose, a guide contour is formed in the interior of the housing, which can interact with a sliding contour formed on the actuating element. The actuating element can thus slide or wander along the guide contour with its sliding contour during a pivoting movement. The actuating element can be supported on the guide contour. The guide contour is preferably in a fixed position so that the actuating element with its sliding contour can be moved relative to the guide contour. The guide contour is preferably part of the housing. By guiding the actuating element in this way during a pivoting movement of the actuating element, reliable opening and closing of the connecting terminal can be achieved, as a result of which the functionality of the connecting terminal can be improved. Furthermore, guiding the actuating element in this way enables easier operation for a user, as a result of which the functionality of the connecting terminal can also be improved.

The guide contour is preferably formed on a wall delimiting the interior of the housing. In this way, the wall delimiting the interior space can directly form the guide contour itself. Further elements and assemblies for forming the guide contour do not have to be provided. The formation of the guide contour thus does not require any additional Installation space, as it can be formed by the existing wall of the housing.

The guide contour can be formed by at least two adjoining wall surfaces of the wall, wherein the at least two wall surfaces can be arranged at an angle α> 0 ° to one another. The guide contour thus preferably extends not only on one wall surface of the wall, but rather the guide contour can extend over several wall surfaces of the wall. These wall surfaces are preferably arranged at an angle to one another in order to be able to achieve targeted guidance of the actuating element during a pivoting movement. The angle α between two adjacent wall surfaces is preferably between 100 ° α 170 °, particularly preferably between 130 ° α 150 °. The guide contour particularly preferably extends over three adjacent wall surfaces of the wall. The first and the third wall surface are preferably aligned transversely to one another, the second wall surface, which is arranged between the first and the third wall surface, preferably extending at an angle between 100 ° α 170 ° to the first and the third wall surface.

The actuating element can have at least one guide leg on which the sliding contour can be formed, wherein the sliding contour can then preferably be formed on an outer surface of the guide leg. With the guide leg, the actuating element can protrude into the interior of the housing. The guide leg can be connected to a grip section via which the actuating element can be actuated by a user in order to carry out the pivoting movement of the actuating element. The grip section is preferably arranged outside of the interior space and outside of the housing, so that a user can grip it from outside. The guide leg is preferably elongated. The sliding contour formed on the outer surface can form a type of rolling surface on which the guide leg and thus the actuating element can roll on the guide contour when the actuating element is pivoted.

It can preferably be provided that, at least in the open position of the clamping leg, the at least one guide leg is positioned in such a way that it can be positioned directly adjacent to a conductor insertion shaft formed in the housing and opening into the interior of the housing, and one formed in the interior of the housing , can laterally limit the conductor entry area adjoining the conductor entry shaft. As a result, the guide leg can, at least in the open position, when a conductor to be connected is inserted into the interior of the housing, form a kind of extension of the conductor entry shaft, so that the conductor can continue to be guided laterally within the interior of the housing even after exiting the conductor entry shaft, so that sideways evasion of the conductor and thus incorrect connection can be avoided. The guide leg can laterally delimit the free space formed between the clamping leg of the clamping spring and the contact section of the current bar, into which the conductor to be connected is inserted, and form a type of guide wall or delimitation wall for the conductor. In the event of a pivoting movement of the actuating element to transfer the clamping leg from the clamping position to the open position, the guide leg of the actuating element is preferably guided in the direction of the opening of the conductor insertion shaft into the interior of the housing, so that the guide leg is positioned in the open position directly in the area of this opening to be able to form a lateral boundary.

The guide leg is preferably guided and positioned within the interior of the housing in such a way that in each of its positions it can project beyond both the top and the bottom of the contact section of the current bar, at least in some areas. The guide leg of the actuating element can thus extend below the contact section of the current bar. The guide leg can laterally overlap the contact section of the current bar. As a result, the guide leg can form a lateral delimitation and guide at any point in time in the area where the conductor makes contact with the contact section of the current bar.

In order to be able to achieve particularly stable and secure guidance of the actuating element during a pivoting movement, the guide contour can extend as far as below the underside of the contact section of the current bar. In this way, the actuating element can also be guided to below the contact section of the current bar. The actuation element can thus be guided along the guide contour up to the point of the actuation element that is furthest away from the handle section of the actuation element.

The actuating element can preferably not only have a guide leg, but a first guide leg and a second guide leg, wherein the sliding contour can be formed on the outer surface of the first guide leg and on the outer surface of the second guide leg. The first Guide leg and the second guide leg are preferably arranged parallel to one another. The two guide legs are preferably designed to be the same, so that the sliding contour on both guide legs is also designed to be the same. In this way, the guide legs can be guided symmetrically to one another along the guide contour during a pivoting movement of the actuating element. The two guide legs enable the actuating element to be guided in a particularly positionally stable and tilt-proof manner during a pivoting movement.

The actuating element can have a pressure element, by means of which the actuating element can apply the pressure force to the clamping leg of the clamping spring, the pressure element being able to migrate along the clamping leg when the clamping leg is transferred from the clamping position to the open position. The pressure element is preferably arranged at a distance from the sliding contour of the actuating element. The pressure element can be connected to one or to the two guide legs. The clamping leg of the clamping spring can be actuated via the pressure element. In the event of a pivoting movement of the actuating element, the pressure element can migrate along the clamping leg, so that a contact surface of the pressure element, with which the pressure element rests on the clamping leg and with which the pressure element can apply a pressure force to the clamping leg, when the clamping leg is transferred into the open position and can migrate into the clamping position along the length of the clamping leg and thus can change its position relative to the clamping leg.

The pressure element can extend transversely to the at least one guide leg of the actuating element. If two guide legs are provided, the pressure element can extend between the two guide legs so that the pressure element can form a connection between the two guide legs. The pressure element preferably has a length which corresponds at least to the width of the clamping leg of the clamping spring.

In order to facilitate the handling of the connecting terminal for a user, the actuating element can interact with the clamping leg of the clamping spring in such a way that the actuating element can automatically remain in its position in the open position of the clamping leg. In order to achieve this, the contact surface of the pressure element can preferably be positioned on the clamping leg in the open position in such a way that the pressure force applied by the contact surface to the clamping leg can act in exactly the opposite direction to the spring force applied by the clamping leg of the clamping spring to the pressure element, so that the pressure force can be compensated by the spring force.

The object according to the invention is also achieved by means of an electronic device which has at least one connection terminal which has been developed and further developed as described above.

The invention is explained in more detail below with reference to the attached drawings on the basis of preferred embodiments.

• 1 eine schematische Schnittdarstellung einer Anschlussklemme gemäß einer ersten Ausführungsform der Erfindung mit dem Klemmschenkel der Klemmfeder in einer Klemmstellung,
• 2 eine schematische Schnittdarstellung der in 1 gezeigten Anschlussklemme mit dem Klemmschenkel der Klemmfeder in einer Offenstellung,
• 3a eine schematische Darstellung eines Betätigungselements der in 1 gezeigten Anschlussklemme,
• 3b eine weitere schematische Darstellung des in 3a gezeigten Betätigungselements,
• 4 eine schematische Darstellung einer Anordnung von Klemmfeder, Strombalken und Betätigungselement der in 1 gezeigten Anschlussklemme,
• 5 eine schematische Darstellung der in 1 gezeigten Anschlussklemme mit dem Klemmschenkel der Klemmfeder in der Klemmstellung, und
• 6 eine schematische Darstellung der in 5 gezeigten Anschlussklemme mit dem Klemmschenkel der Klemmfeder in der Offenstellung.

Show it

• 1 a schematic sectional view of a connection terminal according to a first embodiment of the invention with the clamping leg of the clamping spring in a clamping position,
• 2 a schematic sectional view of the in 1 connection terminal shown with the clamping leg of the clamping spring in an open position,
• 3a a schematic representation of an actuating element of the in 1 terminal shown,
• 3b another schematic representation of the in 3a actuating element shown,
• 4th a schematic representation of an arrangement of clamping spring, current bar and actuating element of the in 1 terminal shown,
• 5 a schematic representation of the in 1 connection terminal shown with the clamping leg of the clamping spring in the clamping position, and
• 6th a schematic representation of the in 5 Terminal shown with the clamping leg of the clamping spring in the open position.

1 and 2 show a connection terminal 100 in a sectioned view. The connection terminal 100 is used to connect an electrical conductor 200 like him in 6th is shown.

The connection terminal 100 has a housing 110 on, which can be formed from an insulating material such as plastic. The case 110 has an interior 111 on within which to connect the conductor 200 he follows.

In the interior 111 of the housing 110 is a current bar 112 arranged. The current bar 112 has a contact portion 113 against which the conductor to be connected 200 clamped can be. This contact section 113 has a top 114 and an opposite bottom 115 on. The conductor is in a connected state 200 on the top 114 of the contact section 113 on and is against the top 114 of the contact section 113 clamped.

Next is in the interior 111 of the housing 110 a spring clip 116 arranged. The clamping spring 116 is designed as a leg spring. The clamping spring 116 has a retaining leg 117 and a clamp leg 118 on, with the retaining leg 117 with the clamp leg 118 over an arcuate section 119 connected is. The retaining leg 117 is arranged in a fixed position. The retaining leg 117 is on a section 120 of the current bar 112 supported. this section 120 of the current bar 112 is spaced from the contact portion 113 of the current bar 112 formed by the current bar 112 a connecting section 121 having which between the contact portion 113 and the section 120 is arranged. The section 120 is here parallel to the contact section 113 aligned and the connecting section 121 runs across the section 120 and to the contact section 113 . In cross-section, the current bar shows 112 a U-shape here.

The clamp leg 118 is relative to the retaining leg 117 movable so that the clamping leg 118 in a clamping position, as shown in 1 and in an open position as shown in 2 shown can be transferred.

To operate the clamp leg 118 the clamping spring 116 is an actuator 122 provided, which is pivotably mounted. The actuator 122 forms an operating lever. The actuator 122 extends into the interior 111 of the housing 110 into it. The actuator 122 does not have a fixed axis of rotation, but the actuating element 122 is floating in the interior 111 of the housing 110 stored so that the axis of rotation of the actuating element 122 upon a pivoting movement of the actuating element 122 shifts.

The case 110 has a guide contour for this 123 on, along which the actuator 122 is guided in its pivoting movement and can be supported. The guide contour 123 is on one of the interior 111 of the housing 110 limiting wall 124 of the housing 110 educated. The guide contour 123 is thus through the housing 110 trained myself.

The guide contour 123 is in the embodiment shown here 1 and 2 on three adjoining wall surfaces 125 , 126 , 127 the wall 124 educated. The first wall surface 125 and the third wall surface 127 which are not directly adjacent to one another extend transversely to one another. The second wall surface 126 is between the two wall surfaces 125 , 127 arranged so that the second wall surface 126 the first wall surface 125 with the third wall surface 127 connects. The first wall surface 125 extends at an angle α from about 140 ° to the second wall surface 126 and the third wall surface 127 extends at an angle α from about 130 ° to the second wall surface 126 .

The guide contour 123 extends above and below the contact portion 113 of the current bar 112 . The first wall surface 125 extends above the top 114 of the contact section 113 . The second wall surface 125 extends above the top 114 and below the bottom 115 of the contact section 113 . The third wall surface 127 extends below the bottom 115 of the contact section 113 .

The actuator 122 has a sliding contour 128 on with which the actuator 122 when pivoting on the guide contour 123 of the housing 110 can wander along or slide along.

3a and 3b show a like in the connector 100 the 1 and 2 used actuating element 122 . The actuator 122 has a handle portion 129 on which a user controls the actuator 122 can grab and operate. The handle section 129 protrudes from the housing 110 out. To the handle section 129 two guide legs close 130a , 130b with which the actuating element 122 in the interior 111 of the housing 110 extends into it. The two guide legs 130a , 130b are designed with the same shape. The two guide legs 130a , 130b are spaced apart from one another and they run parallel to one another. On the two guide legs 130a , 130b is the sliding contour 128 formed with which the actuating element 122 along the guide contour 123 of the housing 110 can be performed. The sliding contour 128 is each on an outer surface 131a , 131b the guide leg 130a , 130b educated. The two guide legs 130a , 130b are elongated. The two guide legs 130a , 130b are the same length. The two guide legs 130a , 130b can with their sliding contour 128 at the same time on the guide contour 123 of the housing 110 walk along or slide along. The guide contour 123 preferably extends over a large part of the width of the interior 111 of the housing 110 so that the sliding contour 128 of the two guide legs 130a , 130b to one and same guide contour 123 slide along and support yourself.

The two guide legs 130a , 130b are so long that they extend to below the bottom 115 of the contact section 113 of the current bar 112 extend. The two guide legs 130a , 130b are thus on the side of the contact section 113 passed so that they are a side boundary for the inside 111 introduced head 200 form. The two guide legs 130a , 130b also close the clamp leg 118 the clamping spring 116 between them, as in particular in 4th can be seen. Especially in the open position of the clamping leg 118 can use the two guide legs 130a , 130b thus one between the clamping leg 118 and the contact section 113 formed space in which the head 200 is introduced, limit laterally.

As in 1 and 2 can be seen is in the housing 110 a conductor entry shaft 132 trained, which in the interior 111 of the housing 110 flows out. Via the conductor entry shaft 132 can the conductor to be connected 200 in the interior 111 of the housing 110 to be introduced.

As in 2 can be seen are the guide legs 130a , 130b in the open position of the clamping leg 118 positioned in such a way that it is directly at the mouth 133 of the conductor entry shaft 132 in the interior 111 of the housing 110 are positioned so that the guide legs 130a , 130b an extension of the conductor entry shaft 132 form and thereby one in the interior 111 of the housing 110 trained, to the conductor entry shaft 132 Laterally limit the adjacent conductor entry area to prevent incorrect insertion of the conductor 200 to avoid.

As in 4th can be seen are the guide legs 130a , 130b of the actuating element 122 so long that they are not only at the contact portion 113 of the current bar 112 and on the clamp leg 118 the clamping spring 116 are passed laterally, but also on the retaining leg 117 the clamping spring 116 are passed sideways.

To operate the clamp leg 118 the clamping spring 116 has the actuating element 122 a pressure element 134 on which the actuator 122 directly on the clamp leg 118 a compressive force D. can apply to the clamping leg 118 to transfer from the clamping position to the open position. As in 3a and 3b can be seen, the pressure element extends 134 between the two guide legs 130a , 130b . The pressure element 134 extends with its length transversely to the length of the guide legs 130a , 130b . The pressure element 134 has the shape of a bar. The pressure element 134 is approximately in the middle of the length of the guide legs 130a , 130b on the guide legs 130a , 130b tied up.

The pressure element 134 has a contact surface 135 on with which the printing element 134 when transferring the clamping leg 118 from the clamping position to the open position and back along the clamping leg 118 wanders or slides along, as in the 1 and 2 can be seen.

The contact surface is in the open position 135 of the printing element 134 such on the clamping leg 118 positioned that of the contact surface 135 on the clamp leg 118 applied compressive force D. exactly opposite to that of the clamping leg 118 the clamping spring 116 on the printing element 134 applied spring force F. acts so that the compressive force D. from the spring force F. can be compensated. This allows the actuating element 122 automatically remain in this position and the clamping leg 118 hold automatically in the open position without a user pressing the actuating element 122 must hold in this position.

5 and 6th show the connection terminal 100 in an uncut representation. In 5 is the actuator 122 pivoted in such a way that the clamping leg 118 is in the clamping position. For inserting a conductor to be connected 200 , as in 6th is shown, the actuator 122 pivoted upwards, whereby the actuating element 122 a compressive force D. on the clamp leg 118 applies to the clamping leg 118 to pivot into the open position and hold in this open position.

List of reference symbols

100

Connection terminal

110

casing

111

inner space

112

Current bar

113

Contact section

114

Top

115

bottom

116

Clamp spring

117

Retaining leg

118

Clamp leg

119

Arched section

120

section

121

Connection section

122

Actuator

123

Guide contour

124

Wall

125

Wall surface

126

Wall surface

127

Wall surface

128

Sliding contour

129

Handle section

130a, 130b

Guide leg

131a, 131b

Exterior surface

132

Conductor entry shaft

133

mouth

134

Printing element

135

Contact surface

200

ladder

α

angle

D.

Compressive force

F.

Spring force

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102011055919 A1 [0002]

Claims (12)

Terminal (100) for connecting an electrical conductor (200), with - A housing (110) having an interior (111), - A current bar (112) which is arranged in the interior (111) of the housing (110) and has a contact section (113) which has an upper side (114) against which the electrical conductor (200) is clamped in a connected state, and has an underside (115) opposite the upper side (114), - A clamping spring (116) which is arranged in the interior (111) of the housing (110) and has a contact leg (117) and a clamping leg (118), the clamping leg (118) being transferable into an open position and into a clamping position, and - A pivotably mounted actuating element (122) protruding into the interior (111) of the housing (110), by means of which a compressive force (D) can be applied to the clamping leg (118) in order to transfer the clamping leg (118) from the clamping position to the open position , - The housing (110) having a guide contour (123) formed in the interior (111) of the housing (110) for the pivotable mounting of the actuating element (122), along which the actuating element (122) is formed with one formed on the actuating element (122) Slides along the sliding contour (128) during a pivoting movement of the actuating element (122). Terminal (100) Claim 1 , characterized in that the guide contour (123) is formed on a wall (124) delimiting the interior (111) of the housing (110). Terminal (100) Claim 2 , characterized in that the guide contour (123) is formed by at least two adjoining wall surfaces (125, 126, 127) of the wall (124), the at least two wall surfaces (125, 126, 127) at an angle α> 0 ° are arranged to each other. Terminal (100) after one of the Claims 1 until 3 , characterized in that the actuating element (122) has at least one guide leg (130a, 130b) on which the sliding contour (128) is formed, the sliding contour (128) on an outer surface (131a, 131b) of the guide leg (130a, 130b) ) is trained. Terminal (100) Claim 4 , characterized in that, at least in the open position of the clamping leg (118), the at least one guide leg (130a, 130b) is positioned in such a way that it is directly adjacent to one formed in the housing (110) and into the interior (111) of the housing ( 110) opening conductor entry shaft (132) is positioned and laterally delimits a conductor entry area formed in the interior (111) of the housing (110) and adjoining the conductor entry shaft (132). Terminal (100) Claim 4 or 5 , characterized in that the at least one guide leg (130a, 130b) projects beyond the top (114) and the bottom (115) of the contact section (113) of the current bar (112) at least in some areas. Terminal (100) after one of the Claims 1 until 6th , characterized in that the guide contour (123) extends to below the underside (115) of the contact section (113) of the current bar (112). Terminal (100) after one of the Claims 4 until 7th , characterized in that the actuating element (122) has a first guide leg (130a) and a second guide leg (130b), the sliding contour (128) on the outer surface (131a) of the first guide leg (130a) and on the outer surface (131b) of the second guide leg (130b), the first guide leg (130a) and the second guide leg (130b) being arranged parallel to one another. Terminal (100) after one of the Claims 1 until 8th , characterized in that the actuating element (122) has a pressure element (134) by means of which the actuating element (122) applies the pressure force (D) to the clamping leg (118), the pressure element (134) when the clamping leg (118) is transferred ) migrates from the clamping position into the open position along the clamping leg (118). Terminal (100) Claim 9 , characterized in that the pressure element (134) extends transversely to the at least one guide leg (130a, 130b) of the actuating element (122). Terminal (100) after one of the Claims 1 until 10 , characterized in that the actuating element (122) cooperates with the clamping leg (118) in such a way that the actuating element (122) automatically remains in its position in the open position of the clamping leg (118). Electronic device, with at least one after one of the Claims 1 until 11 trained connection terminal (100).

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