This application claims priority under 35 U.S.C. § 119 to European Patent Application No. 20160790.0, filed on Mar. 3, 2020.
The present invention relates to a contact assembly, and more specifically, to a contact assembly for a connector housing.
In the field of electrical engineering, connectors are utilized, often temporarily, to allow for power transfer between two spaced-apart electrical units, such as an electrical power source and an electrical load. More specifically, connectors establish an electrical connection between wire ends of an electrical cable of one electrical unit and wire ends of an electrical cable of the other electrical unit. These wire ends commonly comprise a suitable contact attached to the wire ends using a wire termination method. The contacts serve the function of improving the connector's performance in terms of electrical resistance, wear resistance, vibration resistance and comparable specifications. Due to the large number of different applications and an equally large number of different requirements, a variety of contact types and wire termination methods is conventionally available. As connectors and especially connector housings are usually designed specifically for use with a certain contact type, proportionately vast product portfolios and product families result. Moreover, connectors are often required to fulfil differing standards of safety, which further increases the product portfolios and product families. In general, this leads to overall increased efforts for manufacturing, stocking and transporting of connectors and connector housings.
Therefore, it is desirable for connectors and especially connector housings to serve a wide range of applications, while keeping design variations at a minimal level.
In one embodiment of the present disclosure, a contact assembly for a connector housing is provided. The contact assembly includes an adapter element and a contact element. The adapter element has a sleeve with a lead-through opening extending in an axial direction of the sleeve, and with a threaded bore extending perpendicularly to the lead-through opening through the sleeve. The contact element is adapted to be inserted into the lead-through opening, e.g., along an insertion direction substantially parallel to the axial direction, and latched to the sleeve.
The invention will now be described by way of example with reference to the accompanying Figures, of which:
Technical solutions of the present disclosure will be described hereinafter in detail through embodiments and with reference to the attached drawings. In the specification, the same or the like reference numerals refer to the same or the like elements. The illustration of the embodiments of the present disclosure made with reference to the attached drawings is aimed to explain the general inventive concept of the present disclosure, not to be construed as a limitation of the present disclosure.
In addition, in the following detailed description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the disclosed embodiments. It will be apparent, however, that one or more embodiments may be practiced without these specific details. In other instances, well-known structures and devices are schematically shown in order to simplify the drawings.
Referring now to the figures, the structure of possible embodiments of a contact assembly 1, a contact set 2 and a connector housing 4 according to the present disclosure is explained with reference to the exemplary embodiments shown in
The contact element 12 may have a substantially tubular shape 22 enclosing an interior 24 of the contact element 12. In particular, the contact element 12 may comprise a cable connection section 26 for attaching a conductor 28 of an electrical cable 30, the cable connection section 26 being positioned at one axial end 32, and at another axial end 34 opposite to the cable connection section 26, one of a male contact section 36 and female contact section 38 may be positioned. The male contact section 36 may be shaped as a pin 40 and have an outwardly facing contact surface 42 (see
Further in
Moreover, the contact element 12 is shown to be latched to the sleeve 14. In particular, at least one latching wing 54, preferably a pair of latching wings 54, may obliquely protrude outward from the contact element 12. The pair of latching wings 54 may be arranged on radially opposite sides of the contact element 12. In particular, free ends 56 of the pair of latching wings 54 may face against the insertion direction 48 and abut against a front face 58 of the sleeve 14. Thus, the contact element 12 may be secured to the adapter element 10 against an axial load directed against the insertion direction 48.
With reference now to
As can be further seen from
It is to be understood that the contact set 2 shall not be limited to the combination shown in
The shown adapter element 10 and/or contact elements 12 may be stamped and bent parts, in particular made from sheet metal, such as copper. Alternatively, the adapter element 10 and/or contact elements 12 may be manufactured by means of molding, forging, machining and/or any other, preferably automatable, metal working process.
Optionally, the adapter element 10 may exhibit an axial slit 76 extending through the sleeve 14 along the axial direction 18 of the sleeve 14. By way of example, the position of the axial slit 76 is shown opposite to the threaded bore 20. The axial slit 76 may extend across the entire axial length of the adapter element 10.
The adapter element 10 is further shown in
In case of a contact element 12 having the screw-type connection section 62, a screw 70 may extend through the threaded bore 20 of the adapter element 10, through the screw hole 64 and into the interior 24 of the contact element 12. The screw 70 may be in a pre-assembled position, only partially extending into the interior 24 of the contact element 12. From the pre-assembled position, the screw 70 may be further screwed inwards up to a clamping position, in which the conductor 28 is clamped between a tip 82 of the screw 70 and an inner surface 84 of the circular tube section 68 of the contact element 12.
By way of example, three lead-through chambers 86 each receiving one adapter element 10 are disclosed. Further, in each lead-through opening 16 of each adapter element 10, any one contact element 12 of the above described embodiments may be selectively inserted and latched to the adapter element 10.
The at least one lead-through chamber 86 preferably extends from a back side 90 of the connector housing 4 along a mating direction 92 and leads to a front side 94 of the connector housing 4. Thus, each contact element 12 may be mated at the front side 94 of the connector housing 4, while being connected to the conductor 28 of the electrical cable 30 at the back side 90 of the connector housing 4.
In particular, the at least one lead-through chamber 86 leads to a receptacle cavity 96 at the front side 94 of the connector housing 4. This is shown in
For each lead-through chamber 86, the connector housing 4 may comprise a lateral slot 98 at least partially aligned with the threaded bore 20 of the adapter element 10 received within the respective lead-through chamber 86. As shown in
Further, each lead-through chamber 86 may have a recess 102 formed on the internal surface segment 88, wherein the recess 102 may function as a latching groove 104 for engaging with the at least one latching flap 78 of the adapter element 10. This is shown in
The connector assembly 6 disclosed in
As an alternative, the rotational coupling 108 may be established by bayonet elements (not shown) provided on each of the back shell 106 and the connector housing 4.
According to an entirely optional embodiment, a latching structure 116 configured to secure a relative rotational position of the connector housing 4 and the back shell 106 may be formed on each of the connector housing 4 and the back shell 106. Particularly, an axially deflectable latching finger 118 may point against a screw-on direction 120 and extend along a circumferential direction 122 on a front side 124 of the back shell 106 facing the back side 90 of the connector housing 4. A latching notch 126 may be formed accordingly on the back side 90 of the connector housing 4, extending in the circumferential direction 122 and adapted for receiving the latching finger 118 there within. The allocation of the latching finger 118 and the latching notch 126 may also be reversed between the connector housing 4 and the back shell 106.
Preferably, the latching structures 116 of the connector housing 4 and of the back shell 106 are configured to automatically engage at an end position of the rotational coupling 108. For this, an angular offset between the latching notch 126 and the thread 112a formed on the connector housing 4 may be equal to an angular offset between the latching finger 118 and the thread 112b formed on the back shell 106.
In another embodiment, the connector assembly 6 further comprises a screw-mountable cable nut 128, which may be sleeved over the electrical cable 30 and screwed onto the back shell 106 for securing a seal ring 130 held within the back shell 106.
Optionally, the seal ring 130 may be held by a plurality of flexible tabs 132 extending against the mating direction 92 and arranged around the seal ring 130 along the circumferential direction 122. The cable nut 128 may have an internal conical surface 134 widening in the mating direction 92 and facing the flexible tabs 132. Upon screwing of the cable nut 128 onto the back shell 106, the internal conical surface 134 may deflect the flexible tabs 132 inwards, thereby compressing the seal ring 130 and clamping the electrical cable 30.
As shown in the exemplary embodiment of
Still referring to
Preferably, the first connector housing 146 is configured to be mounted to the second connector housing 148. For this, the front side 94 of the first connector housing 146 may be shaped complementarily to the receptacle cavity 96 of the second connector housing 148 or vice versa.
The modular connector set 8 may further comprise at least one male contact embodied by at least one contact element 12 having a male contact section 36 and at least one female contact embodied by at least one contact element 12 having a female contact section 38, in particular, the at least one female contact is configured to be mated to the at least one male contact. Moreover, each of the at least one male contact and the at least one female contact may be selectively inserted into any lead-through opening 16 of any adapter element 10 received within any one of the first connector housing 146 and the second connector housing 148.
In another entirely optional embodiment of the modular connector set 8, the first connector housing 146 may comprise at least one, preferably cantilever, latching hook 150 adapted to engage in a latching connection with the second connector housing 148. More specifically, the at least one latching hook 150 may be, preferably monolithically, formed on a lateral-side 152 of the first connector housing 146 extending from the front side 94 of the first connector housing 146 towards the back side 90 of the first connector housing 146. Upon mounting of the first connector housing 146 to the second connector housing 148, the at least one latching hook 150 may wholly enter the receptacle cavity 96 of the second connector housing 148. Thus, the at least one latching hook 150 may engage in the latching connection with at least one latching edge 154 formed in the receptacle cavity 96 of the second connector housing 148.
Further, the second connector housing 148 may comprise at least one, preferably cantilever, button 156 for disengaging the latching connection between the at least one latching hook 150 and the at least one latching edge 154. In particular, the at least one button 156 may be, preferably monolithically, formed on a lateral-side 158 of the second connector housing 148 extending from the back side 90 of the second connector housing 148 towards the front side 94 of the second connector housing 148 at a position 160, which radially overlaps with the at least one latching hook 150 of the first connector housing 146, upon mounting of the first connector housing 146 the second connector housing 148. The button 156 may be specifically adapted to deflect the at least one latching hook 150 inwards, when pressed. Thus, the at least one latching hook 150 may be pushed out of axial alignment with the at least one latching edge 154, making it possible to unmount the first connector housing 146 from the second connector housing 148.
It is to be understood that the allocation of the latching hook 150 and the button 156 may also be reversed between the first connector assembly 142 and the second connector assembly 144.
It should be appreciated by those skilled in this art that the above embodiments are intended to be illustrative, and many modifications may be made to the above embodiments by those skilled in this art, and various structures described in various embodiments may be freely combined with each other without conflicting in configuration or principle.
Although the present disclosure have been described hereinbefore in detail with reference to the attached drawings, it should be appreciated that the disclosed embodiments in the attached drawings are intended to illustrate the preferred embodiments of the present disclosure by way of example, and should not be construed as limitation to the present disclosure.
Although several exemplary embodiments have been shown and described, it would be appreciated by those skilled in the art that various changes or modifications may be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.
It should be noted that, the word “comprise” doesn't exclude other elements or steps, and the word “a” or “an” doesn't exclude more than one. In addition, any reference numerals in the claims should not be interpreted as the limitation to the scope of the present disclosure.
Number | Date | Country | Kind |
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20160790.0 | Mar 2020 | EP | regional |