EP4379960A1 - Borne de connexion pour connecter un conducteur électrique - Google Patents

Borne de connexion pour connecter un conducteur électrique Download PDF

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Publication number
EP4379960A1
EP4379960A1 EP23212914.8A EP23212914A EP4379960A1 EP 4379960 A1 EP4379960 A1 EP 4379960A1 EP 23212914 A EP23212914 A EP 23212914A EP 4379960 A1 EP4379960 A1 EP 4379960A1
Authority
EP
European Patent Office
Prior art keywords
housing
actuating
connection terminal
locking
actuating element
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP23212914.8A
Other languages
German (de)
English (en)
Inventor
Michael Reineke
Ralph Hoppmann
Andre Selse
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Phoenix Contact GmbH and Co KG
Original Assignee
Phoenix Contact GmbH and Co KG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Phoenix Contact GmbH and Co KG filed Critical Phoenix Contact GmbH and Co KG
Publication of EP4379960A1 publication Critical patent/EP4379960A1/fr
Pending legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R4/00Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
    • H01R4/28Clamped connections, spring connections
    • H01R4/48Clamped connections, spring connections utilising a spring, clip, or other resilient member
    • H01R4/4809Clamped connections, spring connections utilising a spring, clip, or other resilient member using a leaf spring to bias the conductor toward the busbar
    • H01R4/4828Spring-activating arrangements mounted on or integrally formed with the spring housing
    • H01R4/4833Sliding arrangements, e.g. sliding button
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R4/00Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
    • H01R4/28Clamped connections, spring connections
    • H01R4/48Clamped connections, spring connections utilising a spring, clip, or other resilient member
    • H01R4/4809Clamped connections, spring connections utilising a spring, clip, or other resilient member using a leaf spring to bias the conductor toward the busbar
    • H01R4/4828Spring-activating arrangements mounted on or integrally formed with the spring housing
    • H01R4/4835Mechanically bistable arrangements, e.g. locked by the housing when the spring is biased
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R4/00Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
    • H01R4/28Clamped connections, spring connections
    • H01R4/48Clamped connections, spring connections utilising a spring, clip, or other resilient member
    • H01R4/4809Clamped connections, spring connections utilising a spring, clip, or other resilient member using a leaf spring to bias the conductor toward the busbar
    • H01R4/48185Clamped connections, spring connections utilising a spring, clip, or other resilient member using a leaf spring to bias the conductor toward the busbar adapted for axial insertion of a wire end
    • H01R4/4819Clamped connections, spring connections utilising a spring, clip, or other resilient member using a leaf spring to bias the conductor toward the busbar adapted for axial insertion of a wire end the spring shape allowing insertion of the conductor end when the spring is unbiased
    • H01R4/4821Single-blade spring

Definitions

  • the invention relates to a connection terminal for connecting an electrical line according to the preamble of claim 1.
  • connection terminal comprises a housing which has a plug-in opening into which an electrical line can be inserted for connection to the connection terminal along a plug-in direction.
  • a contact element for electrically contacting the electrical line is arranged on the housing.
  • a spring element is also arranged on the housing, which has a clamping leg which is designed to act on the electrical line in order to bring the electrical line into contact with the contact element when the electrical line is inserted into the plug-in opening.
  • An actuating element can be actuated by a user in order to adjust the clamping leg.
  • the actuating element can be adjusted in an actuating direction from a non-actuated position to an actuated position using a tool, for example, in order to adjust the clamping leg in the actuated position, for example to make it easier to insert the electrical line into the plug-in opening or to remove the electrical line from the plug-in opening.
  • a tool for example, in order to adjust the clamping leg in the actuated position, for example to make it easier to insert the electrical line into the plug-in opening or to remove the electrical line from the plug-in opening.
  • the actuating element In the actuated position, the actuating element is locked relative to the housing.
  • a release element is adjustably arranged on the housing, which is designed to interact with the electrical line when an electrical line is inserted into the plug opening in order to release the actuating element from the actuated position.
  • connection terminal realizes a spring force connection by using the spring element, in which the electrical line in the connected position is clamped to the contact element under the elastic spring action of the spring element and is thus electrically connected to the contact element.
  • connection terminal has a spring element in the form of a tension spring, which draws a connected electrical cable into contact with an associated contact element by means of an elastic spring effect and thus creates a clamped connection between the electrical cable and the contact element.
  • the electrical cable is pushed through an opening in the clamping leg and clamped between the clamping leg and the contact element in the connected position.
  • a locking device is provided, by means of which the clamping leg is locked in a release position relative to the housing.
  • the locking device is triggered and the locking is thus released, so that the clamping leg is moved out of the release position and the electrical cable is thereby clamped to the contact element.
  • a tool for example a screwdriver, can be placed on the connection terminal and a force can thereby be exerted on the clamping leg.
  • an actuating element in the form of a so-called pusher is provided, which can be pressed into the housing of the terminal in order to act on the clamping leg and to move the clamping leg into its release position.
  • the actuating element is spring-loaded in relation to the housing of the terminal via a tension spring in the form of a compression spring.
  • an actuating nose is arranged on the actuating element, which is hooked onto a fastening section of a holding element when the actuating element is in the actuated position.
  • the object of the present invention is to provide a connection terminal which makes it possible in a simple manner to hold the clamping leg of the spring element in a release position and to transfer it into a clamping position when an electrical cable is inserted.
  • the actuating element has a first locking element and a second locking element.
  • the housing or a component fixed to the housing has a first counter-locking element and a second counter-locking element.
  • the first locking element engages with the first counter-locking element and the second locking element engages with the second counter-locking element to lock the actuating element.
  • the electrical line is electrically contacted with the electrical contact element by the clamping leg acting on the electrical line when the electrical line is plugged into the plug opening and applying a spring-elastic load to it in the direction of contact with the contact element.
  • the clamping leg of the spring element can be elastically deflected by actuating the actuating element in order to move the clamping leg into a release position in which a space inside the housing in the area of the plug opening is released and the electrical line can thus be plugged into the plug opening with essentially no force or a connected electrical line can be easily removed from the connection terminal.
  • the actuating element can, for example, be designed like a push button and pressed into the housing by the user in order to act on the clamping leg in this way and adjust the clamping leg in the direction of the release position.
  • the actuating element which is adjustably arranged on the housing, is held in position relative to the housing in the actuated position by locking the actuating element to the housing or to a component that is stationary relative to the housing, so that the clamping leg of the spring element is preferably also held in its release position, in which it is possible to easily attach an electrical line to the connection terminal or to remove a connected line from the connection terminal in a substantially forceless manner.
  • the release element which is adjustable relative to the housing, serves to release the actuating element from the actuated position in order to automatically release the actuating element from the actuated position when the electrical cable is inserted into the plug opening and thus to transfer the clamping leg into a clamping position in which the electrical cable inserted into the plug opening is electrically contacted with the contact element of the connection terminal.
  • the actuating element can move back towards the non-actuated position, in particular automatically, preferably under spring preload.
  • a spring preload on the actuating element can be brought about, for example, by the spring element, which is elastically deflected in the actuated position and, after the actuating element is released, acts on the actuating element in a spring-mechanical manner to transfer the actuating element from the actuated position towards the non-actuated position.
  • a preload can, however, can also be provided by an additional preload element, for example an additional spring.
  • connection terminal closes automatically when the electrical cable is plugged in. This results in a simple connection process, with reliable contact between the electrical cable and the contact element due to the clamping effect of the clamping leg.
  • the locking between the actuating element and the housing or the component that is stationary relative to the housing is produced by a plurality of locking elements on the actuating element and associated counter-locking elements on the housing or the component that is stationary relative to the housing.
  • the actuating element thus has a first locking element and a second locking element that are spatially separated from one another and can in particular be axially offset relative to one another along the actuation direction.
  • Each locking element of the actuating element is associated with a counter-locking element on the housing or the component that is stationary relative to the housing, it also being conceivable that a counter-locking element is formed on the housing and a further counter-locking element is formed on a component that is stationary relative to the housing, for example the contact element.
  • the locking elements engage with the counter-locking elements, so that the actuating element is locked at several locations relative to the housing.
  • actuating element Because several spatially spaced locking elements are provided on the actuating element and associated counter-locking elements are provided on the housing or the component fixed to the housing, reliable locking of the actuating element is ensured in the actuated position, with the actuating element being supported at several locations relative to the housing via the locking.
  • the support can in particular be such that the actuating element is locked in position relative to the housing in the actuated position and thus assumes a defined position.
  • the actuating element is linearly displaceable relative to the housing and has a head for actuation by a user and a shaft extending from the head for acting on the clamping leg.
  • the head can For example, it can be accommodated in an actuating opening on the housing and can be adjusted approximately linearly along the actuating direction in the actuating opening. From the head, which can for example have a tool engagement for engaging using a tool, the shaft extends into the interior of the housing in order to interact with the clamping leg of the spring element inside the housing.
  • the first locking element and the second locking element can, for example, be arranged on the shaft and formed axially spaced therefrom, for example on a side of the shaft facing away from the clamping leg.
  • first locking element and/or the second locking element are formed by a rigid locking edge or a locking projection on the actuating element.
  • first counter-locking element and/or the second counter-locking element on the housing side can each be formed by a rigid locking edge or a locking projection.
  • Elasticity for establishing the locking between the actuating element and the housing or the component that is stationary relative to the housing can be provided, for example, by the spring element, which, in the actuated position of the actuating element, holds the locking elements in engagement with the counter-locking elements due to an elastic preload on the clamping leg.
  • the actuating element has at least one further locking element in addition to the first locking element and the second locking element.
  • the housing or a component fixed to the housing also has at least one further counter-locking element. In the actuated position of the actuating element, the at least one further locking element is in engagement with the at least one further counter-locking element. The locking is thus produced by more than two locking elements and their engagement in associated counter-locking elements.
  • the at least one further locking element is axially offset along the actuating direction from the first locking element and the second locking element and thus axially spaced apart.
  • the locking elements provide a positive connection or form-fit connection between the actuating element and the housing or the component fixed to the housing such that the actuating element can be moved along the actuating direction relative to the Housing is fixed and therefore cannot be adjusted from the actuated position against the direction of actuation.
  • the actuation direction can, for example, be directed along the plug-in direction along which an electrical cable is to be inserted into the plug-in opening of the housing for connection to the connection terminal.
  • the trigger element is designed to adjust the first locking element and the second locking element in order to release the actuating element from the actuated position along a transverse direction pointing transversely to the plug-in direction relative to the first counter-locking element and the second counter-locking element.
  • the actuating element In the actuated position, the actuating element is locked via the locking elements and their engagement with the associated counter-locking elements.
  • the locking can be released by moving the locking elements, triggered by an adjustment movement caused by the trigger element on the actuating element, in a transverse direction oriented transversely to the plug-in direction relative to the counter-locking elements and thus disengaging them from the counter-locking elements.
  • the actuating element is released from the actuated position and can return to the non-actuated position, whereby the actuating element can be reset automatically, for example, by a spring preload, caused for example by the clamping leg.
  • the actuating element can be tilted in the housing, for example, by a (small) tilt angle.
  • the trigger element is designed to tilt the actuating element relative to the housing to release it from the actuated position. If an electrical line acts on the trigger element when plugged in and thereby adjusts the trigger element, the trigger element acts on the actuating element and tilts the actuating element in the housing in such a way that the locking elements along the transverse direction are disengaged from the counter-locking elements.
  • the clamping leg of the spring element can be pivoted in a pivot plane relative to the housing.
  • the pivot plane can be spanned, for example, by the plug-in direction and the transverse direction.
  • the trigger element is designed to tilt the actuating element relative to the housing in the pivot plane for releasing it from the actuated position, for example in such a way that the tilting movement of the actuating element for releasing the locking takes place against the spring preload of the clamping leg on the actuating element.
  • the actuating element has a first adjusting section, while the triggering element has a second adjusting section.
  • the triggering element is designed to act on the first adjusting section with the second adjusting section to release the actuating element from the actuated position.
  • the first plug section and/or the second adjusting section can, for example, extend obliquely to the plug direction and the transverse direction.
  • the first adjusting section and/or the second adjusting section can be curved in a plane spanned by the plug direction and the transverse direction.
  • the adjusting section on the triggering element runs onto the associated adjusting section on the actuating element and thereby adjusts the actuating element in such a way that the locking elements on the actuating element are disengaged from the associated counter-locking elements and the actuating element is thus released from its locking in the actuated position.
  • the adjustment sections on the trigger element on the one hand and on the actuating element on the other hand are designed to adjust the actuating element and thereby release the locking mechanism when an electrical cable is plugged in and the trigger element is triggered.
  • the first adjustment section and the second adjustment section can also work together when the actuating element is moved from the non-actuated position to the actuated position in order to return the trigger element to an initial position which the trigger element assumes when the actuating element is in the actuated position and an electrical cable is to be plugged into the connection terminal.
  • a separate reset element for example a mechanical spring, for returning the trigger element to the initial position can be dispensed with if necessary.
  • the trigger element has a third adjustment section.
  • the housing or a component fixed to the housing, for example the contact element has a fourth adjustment section.
  • the trigger element is adjustable on the Housing arranged so that the trigger element slides with the third adjustment section on the fourth adjustment section when adjusted by plugging in the electrical cable and is thereby adjusted in the adjustment direction and also along the transverse direction relative to the housing.
  • the trigger element is thus guided relative to the housing via the third adjustment section and the fourth adjustment section, so that the trigger element, when adjusted from the starting position, executes a superimposed movement both along the plug-in direction and along the transverse direction perpendicular to the plug-in direction.
  • the third adjustment section and/or the fourth adjustment section can, for example, each extend obliquely to the plug-in direction and the transverse direction or be curved in a plane spanned by the plug-in direction and the transverse direction. This results in a movement path along which the trigger element is adjusted with a movement vector component along the plug-in direction and with another movement vector component transverse to the plug-in direction.
  • the third actuating section and the fourth actuating section guide the trigger element relative to the housing when it moves out of the starting position.
  • the third actuating section and the fourth actuating section also work together when the trigger element is returned in the direction of the starting position, so that when the actuating element is actuated to transfer the actuating element into the actuated position, the trigger element is moved back into the starting position in a guided manner without a separate pre-tensioning element on the trigger element being required for this purpose.
  • the housing defines a receiving space into which the electrical cable can be inserted by inserting it into the plug-in opening.
  • the trigger element is arranged in the receiving space for interaction with the electrical cable and can be adjusted from the starting position relative to the housing by interaction with the electrical cable.
  • the trigger element can be displaceable or pivotable relative to the housing.
  • a displacement path of the trigger element can be straight or curved. Such a displacement path can be extended in particular at an angle to the plug-in direction, so that the trigger element does not perform a straight movement along the plug-in direction when an electrical cable is inserted into the plug-in opening and acts on the trigger element, but rather the trigger element moves both in the plug-in direction and is also adjusted in the transverse direction perpendicular to the plug-in direction in order to act on the actuating element to release the locking mechanism.
  • the trigger element is arranged pivotably on the housing and has a trigger arm which, in the initial position, extends transversely to the plug-in direction in the receiving space.
  • the trigger arm extends into an area of the receiving space which is aligned with the plug-in opening, so that when an electrical cable is plugged in, it hits the trigger arm and thereby pivots the trigger element relative to the housing.
  • the trigger element is thus adjusted from an initial position and thereby acts on the actuating element in order to release the locking of the actuating element with the housing.
  • the spring element is designed as a tension spring.
  • the clamping leg of the spring element is designed to pull the electrical line into contact with the contact element by spring force.
  • an opening can be formed on the clamping leg, for example, through which the electrical line can be guided when plugged into the plug opening of the housing in order to pull the electrical line into clamping contact with the contact element after the clamping leg is released from the release position.
  • the spring element can be designed as a compression spring.
  • the clamping leg is designed to press the electrical cable into contact with the contact element using spring force. When inserted into the plug opening, the electrical cable enters a space between the clamping leg and the contact element, whereby after the clamping leg is released from the release position, the clamping leg acts on the electrical cable and presses it into contact with the contact element.
  • the clamping leg can be elastically adjusted relative to the housing into a release position by actuating the actuating element and is held in the release position by the actuating element relative to the housing. The clamping leg is thus locked in the release position relative to the housing, so that the clamping leg remains in the release position after actuating the actuating element.
  • the spring element can, for example, have a support leg, via which the spring element is supported on the housing and held in position on the housing.
  • the clamping leg can be elastically deflected relative to the support leg, wherein in the release position the clamping leg is deflected such that the spring element is elastically tensioned and the clamping leg is moved out of the release position in an elastically pre-tensioned manner after being released from the release position.
  • Fig. 1A-1D to 4A-4F show an embodiment of a connection terminal 1, which forms a housing 10 with a plug opening 100 formed therein for inserting an electrical line 2 along a plugging direction E.
  • the housing 10 defines a receiving space 101 into which the electrical line 2 with a stripped conductor end 20 is inserted when it is inserted into the plug-in opening 100 along the plug-in direction E.
  • the line 2 with the stripped conductor end 20 is located within the receiving space 101 and is electrically contacted via a clamping leg 120 of a spring element 12 with a contact element 11 in the form of a current bar, so that the electrical line 2 is electrically connected to the connection terminal 1, as shown in Fig. 4A-4F is shown.
  • the spring element 12 has a support leg 121 which is connected to the clamping leg 120 via a curved intermediate section 122 and is supported together with the intermediate section 122 on a housing section 103 of the housing 10, so that the spring element 12 is attached to the housing 10 via this and is fixed to the housing 10.
  • the clamping leg 120 can be elastically deflected relative to the support leg 121, in particular such that the clamping leg 120 can be bent in a Fig. 4A-4F In the clamping position shown, it acts in a clamping manner on an electrical line 2 connected to the connection terminal 1 and presses this under elastic prestress into contact with a surface section 110 of the contact element 11 and thus electrically contacts the line 2 with the contact element 11 via its conductor end 20.
  • an actuating element 14 is adjustable along an actuating direction B on the housing 10.
  • the actuating element 14 is accommodated in an actuating opening 102 of the housing 10 and can be displaced along the actuating direction B relative to the housing 10 in order to thereby act on the clamping leg 120 of the spring element 12 and to adjust it between the clamping position and a release position.
  • the actuating element 14 shown in a separate view has a head 140 which is accessible from outside the housing 10 via the actuating opening 102 and can thus be actuated by a user, for example using a tool.
  • a shaft 141 extends from the head 140 and serves to act on the spring element 12 for adjusting the clamping leg 120.
  • an active section 147 is provided on the shaft 141. shaped, with which the actuating element 14 acts on the clamping leg 120 of the spring element 12 when adjusted to an actuated position and transfers this into the release position.
  • Locking elements 143, 144 are formed on the shaft 141, which are formed by step-shaped edges extending approximately perpendicular to the actuation direction B and serve to lock the actuating element 14 in the actuated position.
  • the locking elements 143, 144 on the actuating element 14 are in the actuated position of the actuating element 14, shown in Fig. 1A-1D , engage with associated counter-latching elements 104, 105 on an inner housing wall of the housing 10 and are thereby fixed to the housing 10 in a form-fitting or force-fitting manner along the actuation direction B, which is oriented parallel to the plug-in direction E. In the actuated position, the actuation element 14 is thus locked to the housing 10.
  • the actuating element 14 By locking with the housing, the actuating element 14 holds the clamping leg 120 of the spring element 12 in the release position and thus at a distance from the surface section 110 of the contact element 11, so that an electrical line 2 can be inserted in a substantially forceless manner into the plug-in opening 100 along the plug-in direction E and thus connected to the connection terminal 1.
  • the clamping leg 120 In the release position, the clamping leg 120 is elastically deflected relative to the support leg 121 and thus provides an elastic clamping force on the actuating element 14 in the direction of engagement of the locking elements 143, 144 with the counter-locking elements 104, 105, so that the actuating element 14 is held in the locked position under pre-tension of the clamping leg 120.
  • the locking elements 143, 144 are formed on the shaft 141 of the actuating element 14 so as to be axially offset from one another along the actuating direction B. In the actuated position of the actuating element 14, the locking elements 143, 144 thus establish a locking at axially different positions by engaging the counter-locking elements 104, 105 on the housing 10, so that the actuating element 14 is supported on the housing 10 and held in a defined position relative to the housing 10.
  • An end 142 is formed on the shaft 141, which projects beyond the active section 147 and forms an adjusting section 145, via which the actuating element 14 interacts with a trigger element 13 of the connection terminal 1.
  • the actuating element 14 thus engages with the end 142 in an opening 132 on a trigger leg 130 of the trigger element 13 and is operatively connected via the adjusting section 145 to an associated adjusting section 133 on the trigger element 13.
  • the trigger element 13 is pivotally mounted to the housing 10 via a bearing axis 131.
  • the trigger arm 130 is in an initial position (see Fig. 1A-1D ) extends at least approximately transversely to the plug-in direction E and projects in the interior 101 of the housing 10 into an area aligned with the plug-in opening 100 such that when an electrical cable 2 is plugged in, the latter strikes the triggering leg 130 with a conductor end 20 and thus acts on the triggering element 13.
  • the trigger element 13 serves to interact with an electrical cable 2 inserted into the plug opening 100 in order to automatically connect the electrical cable 2 to the connection terminal 1 by triggering the clamping leg 120. If the actuating element 14 is in the actuated position according to Fig. 1A-1D , the trigger element 13 takes the Fig. 1A-1D apparent starting position, in which the adjusting sections 133, 145 of the trigger element 13 and the actuating element 14 are in contact with each other.
  • the adjusting sections 133, 145 are each curved (in a plane spanned by the actuating direction B and a transverse direction Q, corresponding to the cutting plane according to Fig. 1C ) and engage with each other in the initial position, so that the actuating element 14, which is locked to the housing 10 via the locking elements 143, 144, holds the trigger element 13 in position.
  • the adjusting section 145 at the end 142 of the shaft 141 of the actuating element 14 is concave
  • the adjusting section 133 at the trigger element 13 is convex. If an electrical line 2 is inserted in the plug-in direction E into the plug-in opening 100 of the housing 10, as shown in Fig. 3A and 3B As can be seen, the line 2 with its line end 20 hits the triggering leg 130 of the triggering element 13 and pivots the triggering element 13 about the bearing axis 131.
  • the actuating sections 133, 145 slide onto one another and with their curvatures disengage from one another, causing the actuating element 14 to be held on its shaft 141 is tilted in a tilting direction K by a (small) tilting angle to the housing 10.
  • the locking elements 143, 144 are adjusted in the transverse direction Q relative to the counter-locking elements 104, 105 on the housing 10 and are disengaged from the counter-locking elements 104, 105, so that the locking of the actuating element 14 is canceled.
  • a tilt axis D, about which the actuating element 14 is approximately tilted when the triggering element 13 is triggered, is located, for example, in the region of the head 140 of the actuating element 14, as shown in Fig. 3A is marked.
  • the actuating element 14 is adjusted relative to the housing 10 in the opposite direction to the actuating direction B due to the spring preload of the clamping leg 120, as shown in Fig. 4A-4F
  • the actuating element 14 thus slides upwards in the actuating opening 102, and the clamping leg 120 comes into contact with the line end 20 and presses it into contact with the surface section 110 of the contact element 12, as can be seen from the sectional views according to Fig. 4C and 4D visible.
  • the actuating element 14 is prevented from sliding out of the actuating opening 102 by the actuating element 14 coming into contact with a contact edge 106 on the housing via the locking element 143, for example, as can be seen from Fig. 4E and 4F is evident.
  • the actuating element 14 is automatically moved out of the actuated position after the hold is released due to the spring preload of the clamping leg 120, a user can safely and reliably recognize that the connection terminal 1 has been triggered and the electrical line 2 is thus connected to the connection terminal 1. The risk of incorrect operation is thus reduced.
  • the actuating element 14 can be returned to the actuated position according to Fig. 1A-1D so that the clamping leg 120 is brought out of contact with the line 2.
  • the line 2 can thus be removed from the connection terminal 1 in a substantially forceless manner.
  • a separate preload on the trigger element 13 for returning it to the starting position is not required.
  • the trigger element 13 is returned to the starting position by interaction with the actuating element 14 when the actuating element 14 is moved into the actuated position.
  • a trigger element 13 is adjustable in a guided manner relative to the housing 10.
  • the trigger element 13 has for this purpose an adjusting section 134 in the form of an oblique edge, which cooperates with an associated adjusting section 107 in the form of an oblique edge on the housing 10, as can be seen from Fig. 5A, 5B in conjunction with the sectional views according to Fig. 7A, 7B is evident.
  • Fig. 5A, 5B and 7A, 7B show the connection terminal 1 in an actuated position of the actuating element 14, in which the actuating element 14 is locked to the housing 10 via locking elements 143, 144 with associated counter-locking elements 104, 105, as can be seen in particular from the sectional views according to Fig. 7A, 7B is visible.
  • the actuating element 14 is spring-loaded via the deflected clamping leg 120 and is thus held in engagement with the counter-latching elements 104, 105 and thereby locked in the actuated position.
  • Two second locking elements 144 are provided on the actuating element 14 axially to the first locking element 143, which engage with associated counter-locking elements 105 on the housing 10 and are arranged axially at the same position.
  • an adjusting section 133 of the trigger element 13 which is formed on an edge facing away from the adjusting section 134, slides along an associated adjusting section 145 on the shaft 141 of the actuating element 14, which extends obliquely to the actuating direction B, and thereby adjusts the actuating element 14 by tilting it in the transverse direction Q, so that the locking elements 143, 144 are disengaged from the associated counter-locking elements 104, 105 on the housing 10 and the locking of the actuating element 14 with the housing is thus canceled.
  • the actuating element 14 is returned to the actuated position according to Fig. 5A, 5B and 7A, 7B whereby the adjusting section 145 of the actuating element 14 acts on the adjusting section 133 of the trigger element 13 and the trigger element 13 returns to the starting position according to Fig. 7A, 7B Due to the guidance of the trigger element 13 via the actuating section 134 on the associated actuating section 107, the trigger element 13 slides against the transverse direction Q and against the plugging direction E relative to the housing 10 and thus, when the actuating element 14 is actuated, again takes the starting position according to Fig. 7A, 7B a.
  • the release element 13 is thus reset automatically when the actuating element 14 is actuated, without any pre-tensioning, for example by a return spring, on the release element 13 being necessary.
  • an actuating element 14 has three locking elements 143, 144, 148, which are axially offset from one another along the actuating direction B, as can be seen, for example, from the sectional views according to Fig. 8C and 8D
  • the axially offset locking elements 143, 144, 148 on the actuating element 14 are in the actuated position of the actuating element 14 according to Fig. 8A-8D in engagement with associated counter-locking elements 104, 105, 108 on a wall inside the housing 10.
  • the actuating element 14 is thus locked in the actuated position relative to the housing 10. Due to the multiple locking at different axial positions, the actuating element 14 is held in a defined position relative to the housing 10.
  • a trigger element 13 is provided which, analogously to the embodiment according to Fig. 5A , 5B to 7A , 7B described, is guided displaceably on the housing 10 and slides with an adjusting section 134 on an associated adjusting section 107 of the housing 10. If an electrical line 2, as shown in Fig. 9A-9F visible, in the plug-in direction E into the plug-in opening 100 of the housing 10, the trigger element 13 is adjusted relative to the housing 10, wherein the trigger element 13 is adjusted both in the plug-in direction E and in the transverse direction Q due to the guidance of the adjusting sections 134, 107 to one another.
  • the trigger element 13 When adjusted, the trigger element 13 acts via an adjusting section 133 on an associated adjusting section 145 at one end 142 of the actuating element 14 and thereby tilts the actuating element 14 in a tilting direction K relative to the housing 10.
  • the locking elements 143, 144, 148 are disengaged from the associated counter-locking elements 104, 105, 108 of the housing 10 in the transverse direction Q, so that the locking of the actuating element 14 is canceled.
  • the clamping leg 120 of the spring element 12 passes through an opening 146 on the shaft section 141 of the actuating element 14. While when the actuating element 14 is actuated, the clamping leg 120 is held in a deflected position relative to the support leg 121 via an active section 147 delimiting the opening 146, as can be seen from Fig. 8A-8D As can be seen, the active section 147 releases the clamping leg 120 after the locking of the actuating element 14 is released, so that the clamping leg 120 can adjust elastically in the direction of the surface section 110 of the contact element 11 and thus brings the electrical line 2 into clamping contact with the surface section 110 for electrical contact with the contact element 11, as can be seen in particular from the sectional views according to Fig. 9C and 9D is evident.
  • the actuating element 14 is also adjusted against the actuating direction B and thus reaches the non-actuated position according to Fig. 9A-9F .
  • the actuating element 14 is actuated again to release the line 2, as shown in Fig.10A-10F
  • the actuating element 14 with the end 142 and the adjusting section 145 formed thereon acts on the associated adjusting section 133 of the trigger element 13 and adjusts the trigger element 13 against the plugging direction E and against the transverse direction Q back to the starting position according to Fig. 8A-8D .
  • the trigger element 13 slides over the adjusting section 134 on the associated adjusting section 107 of the housing 10 and thus reaches the starting position in a guided manner according to Fig. 8A-8D .
  • a separate reset element on the trigger element 13 is not required to return it to the starting position.
  • a trigger element 13 is pivotally mounted about a bearing axis 131 relative to the housing 10 and interacts via an adjusting section (not visible in the figures) positioned obliquely to the plug-in direction E with an associated, obliquely positioned adjusting section 145 at one end 142 of the actuating element 14 in order to hold the trigger element 13 in the initial position according to Fig. 11A, 11B and 13A, 13B and to return to the starting position after deflection when the actuating element 14 is actuated.
  • Fig. 11A , 11B to 13A , 13B Three axially offset locking elements 143, 144, 148 are formed on the actuating element 14, analogously to what was previously described with reference to the embodiment according to Fig. 8A-8D to 10A-10F
  • the locking elements 143, 144, 148 are in the actuated position of the actuating element 14, shown in Fig. 11A, 11B and 13A, 13B , in engagement with associated counter-locking elements 104, 105, 108 of the housing 10 and thus establish a locking of the actuating element 14.
  • the cable acts on the trigger element 13 and adjusts it about the bearing axis 131.
  • the actuating element 14 is relatively tilted towards the housing 10, and the locking elements 143, 144, 148 come out of engagement with the associated counter-locking elements 104, 105, 108 of the housing 10 in the transverse direction Q.
  • the locking of the actuating element 14 is thus canceled, and the actuating element 14 is returned to the non-actuated position due to the spring preload of the clamping leg 120.
  • actuating element 14 If the actuating element 14 is actuated again and thereby moved in the actuating direction B into the actuated position according to Fig. 11A, 11B and 13A, 13B the actuating element 14 moves the trigger element 13 back to the starting position according to Fig. 11A, 11B and 13A, 13B , wherein the trigger element 13 comes into contact with a contact edge 149 at the end 142 of the actuating element 14 and thus assumes a defined position relative to the actuating element 14, as can be seen from Fig. 13A, 13B is evident.
  • the trigger element can be pivotably mounted on the housing or on a component that is stationary relative to the housing via a bearing axis.
  • the actuating element can be pre-tensioned in the direction of the non-actuated position by the action of the clamping leg of the spring element.
  • an additional pre-tensioning element which pre-tensions the actuating element against the actuation direction in the direction of the non-actuated position relative to the housing.
  • Such a pre-tensioning element can be designed, for example, by a compression spring or another mechanical spring.

Landscapes

  • Details Of Connecting Devices For Male And Female Coupling (AREA)
  • Connections Arranged To Contact A Plurality Of Conductors (AREA)
EP23212914.8A 2022-11-30 2023-11-29 Borne de connexion pour connecter un conducteur électrique Pending EP4379960A1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
LU503120A LU503120B1 (de) 2022-11-30 2022-11-30 Anschlussklemme zum Anschließen einer elektrischen Leitung

Publications (1)

Publication Number Publication Date
EP4379960A1 true EP4379960A1 (fr) 2024-06-05

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ID=85199482

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EP23212914.8A Pending EP4379960A1 (fr) 2022-11-30 2023-11-29 Borne de connexion pour connecter un conducteur électrique

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Country Link
EP (1) EP4379960A1 (fr)
CN (1) CN118117382A (fr)
LU (1) LU503120B1 (fr)

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202017103185U1 (de) * 2016-05-30 2017-09-01 Weidmüller Interface GmbH & Co. KG Federkraftklemme für Leiter
DE102019127464B3 (de) 2019-10-11 2021-03-25 Phoenix Contact Gmbh & Co. Kg Anschlusseinrichtung zum Anschließen einer elektrischen Leitung
DE102019135203A1 (de) 2019-12-19 2021-06-24 Phoenix Contact Gmbh & Co. Kg Anschlussanordnung, Anschlusseinrichtung sowie elektronisches Gerät
DE102020104140A1 (de) 2020-02-18 2021-08-19 Phoenix Contact Gmbh & Co. Kg Anschlussanordnung
EP4084226A1 (fr) * 2021-04-29 2022-11-02 Phoenix Contact GmbH & Co. KG Agencement de borne, borne de connexion et appareil électronique

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202017103185U1 (de) * 2016-05-30 2017-09-01 Weidmüller Interface GmbH & Co. KG Federkraftklemme für Leiter
DE102019127464B3 (de) 2019-10-11 2021-03-25 Phoenix Contact Gmbh & Co. Kg Anschlusseinrichtung zum Anschließen einer elektrischen Leitung
DE102019135203A1 (de) 2019-12-19 2021-06-24 Phoenix Contact Gmbh & Co. Kg Anschlussanordnung, Anschlusseinrichtung sowie elektronisches Gerät
DE102020104140A1 (de) 2020-02-18 2021-08-19 Phoenix Contact Gmbh & Co. Kg Anschlussanordnung
EP4084226A1 (fr) * 2021-04-29 2022-11-02 Phoenix Contact GmbH & Co. KG Agencement de borne, borne de connexion et appareil électronique

Also Published As

Publication number Publication date
CN118117382A (zh) 2024-05-31
LU503120B1 (de) 2024-05-30

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