奥地利专利AT521108A2 Plug arrangement for data cables

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专利摘要:
A plug arrangement for use with cables (K) with cable plugs (S) comprises a housing (1) for receiving the cable plug (S), a clamping part (5) embracing the cable (K) and accommodated in the housing (1) Condition the cable (K) jammed, and a clamping sleeve (3) for forming a threaded connection with the housing (1). When the threaded connection is tightened, the clamping part (5) in the housing (1) is clamped and the cable (K) is clamped in the clamping part (5). The cable connector (S) facing the front end of the clamping part (5) is designed for receiving and positioning the cable connector (S) in a predetermined position at the front end of the clamping part (5) or provided with at least one stop for the cable connector (S). Thus, when tightened threaded connection and the cable connector (S) relative to the housing (1) and the clamping part (5) is positioned against rotation and fixed.
公开号:AT521108A2
申请号:T51132/2018
申请日:2018-12-19
公开日:2019-10-15
发明作者:Zechmann Kevin
申请人:Neutrik Ag；
IPC主号:

专利说明:

A plug arrangement for use with cables (K) with cable plugs (S) comprises a housing (1) for receiving the cable plug (S), a clamping part (5) embracing the cable (K) and accommodated in the housing (1) Condition the cable (K) jammed, and a clamping sleeve (3) for forming a threaded connection with the housing (1). When the threaded connection is tightened, the clamping part (5) in the housing (1) is clamped and the cable (K) is clamped in the clamping part (5). The cable connector (S) facing the front end of the clamping part (5) is designed for receiving and positioning the cable connector (S) in a predetermined position at the front end of the clamping part (5) or provided with at least one stop for the cable connector (S). Thus, when tightened threaded connection and the cable connector (S) relative to the housing (1) and the clamping part (5) is positioned against rotation and fixed.
Fig. 2/34
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The invention relates to a connector assembly for use with cables with cable connectors, in particular for data cables such as RJ45 cable, optical fiber, power cable and the like., According to the preamble of claim 1, and a connector using such a connector assembly, according to the preamble of claim 14, as well as a clamping part for use in a plug arrangement, according to the preamble of claim 17.
The transmission of electronic data between computing systems via cable is well known. These cables typically have a multi-pole male connector whose configuration is similar to a rectangular telephone jack. A widely used 8-pin connector is known in the art as an RJ-45 connector. For some applications, the standard RJ-45 connector is prone to damage and failure. For example, it is not well suited for repeated insertion and removal in and out of a particular chassis connector socket; the contacts will be slightly bent or misplaced by incorrect insertion. The plastic latch (spring arm) can tire and break off, so that the plug is then no longer firmly seated in the socket. The cable itself is prone to failure by repeated kinking at the point where the cable enters the receptacle. Furthermore, the cable can also be torn out of the plug by longitudinal loading. The plug housing is molded of plastic and is easily deformed or broken when accidentally stepped on, for example. The mentioned disadvantages also apply to other cable connections such as fiber optic cables, power cables and many more.
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To protect the sensitive cable plug, an arrangement according to EP 1 317 025 B1 was therefore proposed. Furthermore, NEUTRIK AG markets a cable plug protection for prefabricated RJ45 cable plugs under the designation NE8MC. It consists of housing, stop disc, clamping part, adapter sleeve and anti-kink protection. A housing for receiving the actual cable connector has an external thread to produce together with an internal thread having a clamping bush or cap or clamping nut for forming a threaded connection. Inside the housing and partly also the clamping sleeve a radially compressible and the cable encompassing clamping part is added, which clamps the cable in the housing in a compressed state. When tightened threaded connection, the clamping sleeve, the clamping part, the housing and the cable are clamped together and clamping sleeve, clamping part and housing form a plug assembly, which can be connected by mating with a complementary element such as a socket. Depending on the specific embodiment of the cable connector further additional, adapted to the respective connector adapters between the front end of the collet and the cable connector must be used, which increases the assembly time and the assembly effort in a disadvantageous manner. Moreover, suitable adapter pieces must be kept ready for each type of cable connector.
The object of the present invention has been made to provide, while avoiding the disadvantages of the prior art, a simple design and quick-mounting device for protecting a cable connector of any kind and for any type of cable through which the risk of damage during insertion in a corresponding socket while it is inserted into the socket and can be avoided or reduced when pulling out of the socket.
This object is achieved by a device according to claims 1 and 14 as well as using an element according to claim 17. Further features of the invention can be taken from the dependent claims, the description and the drawings.
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The device according to the invention is to solve the above object, characterized in that the cable connector facing the front end of the clamping member for receiving and positioning the cable connector is formed in a predetermined position at the front end of the clamping part or provided with at least one stop for the cable connector, wherein when tightened Threaded connection of the cable connector against the housing and the clamping part is positioned against rotation and fixed. This results in a robust, durable connector system for a harsh environment where the cable connectors are protected against damage and which provides strain relief for the cable. Preferably, this system is mounted on an existing, standard cable connector conventionally located at one end of a data cable. Alternative applications include connectors of optical cables or power cables, in all cases, for use with individual contacts instead of multiple contact elements summary cable connectors.
In this case, a plug arrangement is preferred in which at least one cross-sectional constriction is arranged in the interior of the housing as a stop for the front end of the clamping part in the longitudinal axis direction. The clamping part is supported at least when tightened threaded connection in the longitudinal axis direction of the cross-sectional constriction and is thus accurately positioned in the longitudinal axis direction of the housing. This guarantees an optimal connection of the cable connector with its counterpart.
According to a further embodiment of the invention, the plug arrangement is characterized in that the clamping part is clamped at least when tightened threaded connection between the cross-sectional constriction and the clamping sleeve or a cooperating element and thus accurately positioned in the longitudinal axis direction of the housing. This also contributes significantly to the production of an optimal connection of the cable connector while at the same time very good mechanical protection.
Preferably, the clamping part is guided against rotation within the housing about its longitudinal axis, resulting in an even faster and easier / 34
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Achieve assembly and connect with optimal fixation and positioning of the cable connector in the assembled state of the connector assembly.
In order to ensure the security of rotation of the clamping part in the housing with the simplest possible and functionally reliable means and still obtain a simple Längsverschiebbarkeit, according to another optional feature of the invention inside the housing at least one parallel to the longitudinal axis direction running guide for the clamping part. This cooperates advantageously with a complementary structure on the clamping part, possibly even with the cable connector itself, in particular with its side edges, and thus leads to the desired longitudinal guidance without rotation of the clamping part.
Preferably, it is provided that the guide for the clamping part and the complementary structure are formed on the clamping part as parallel to the longitudinal axis direction of the housing extending web and extending parallel to the longitudinal axis direction of the housing groove.
According to an advantageous inventive embodiment, a plurality of circumferentially distributed around the central longitudinal axis and oriented parallel thereto fingers are formed as a receptacle or stop for the cable connector and as a stop for the cross-sectional constriction of the housing at the front end of the clamping member, which abut with tightened threaded connection to this cross-sectional constriction. This ensures a simple, rapid, accurate yet secure positioning and fixation of the cable connector, which is still easy to insert into the front end of the clamping part.
Preferably, at least one shoulder is formed on at least one of the fingers laterally in the circumferential direction as a receptacle or stop for the cable plug. At the latest when the threaded connection is tightened, the rear end of the cable connector rests against at least one of the shoulders or is held between the fingers and thus securely positioned. On the position and depth of the shoulder, preferably a plurality of stepped shoulders, depending on the rotational position of the clamping part about the cable longitudinal axis a different dimensions / 34
N2018 / 28300-AT-00 of the cable connector receiving area. Thus, such a designed clamping part and this clamping part-containing plug assembly for receiving cable connectors with different dimensions is suitable.
According to an advantageous further embodiment of the inventive connector arrangement, a radially inwardly projecting web is formed on at least one of the fingers. About these webs increased stability of the clamping part and in particular the fingers can be achieved.
Further, at least one of the fingers is further positioned and dimensioned such that a possible spring arm of the cable connector is held by this finger in a pressed position to the housing of the cable connector. Thus, the spring arm does not obstruct the only accomplished by the connector assembly coupling and locking the connector and must not be removed manually in an additional, complex operation at risk of damaging the cable connector.
A simple to manufacture and robust embodiment of the clamping part is characterized in that the clamping part has a subsequent to the fingers of the front cylindrical middle part and the fingers opposite, preferably tapered rear end.
In order to ensure the best possible strain relief, the tapered rear end of the clamping member preferably has at least two radially compressible fingers whose facing the cable surfaces are designed for increased form or frictional engagement with the cable.
A very robust embodiment of the plug arrangement has, according to a further optional feature of the invention, a housing formed of die-cast metal or plastic. Of course, the use of other materials is conceivable.
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A further inventive embodiment of the connector assembly is characterized in that further a recess in the housing for receiving a possible spring arm of the cable connector and / or a finger of the clamping member is provided, wherein optionally the spring arm is held in the depressed position in the recess.
A connector assembly with a clamping member having a continuous along the length of the clamping part axis-parallel longitudinal slot, wherein the clamping member can be stretched elastically in the circumferential direction and pushed onto the cable, ensures a rapid and secure mounting of the connector assembly on the cable with cable connector, with a small Number of components.
To solve the problem initially stated also plug connection is provided, using a connector assembly according to one of the preceding paragraphs.
This connector is according to the invention characterized in that for the formation of at least one electrical connection weiters a female connector for the corresponding receptacle of the connector assembly is provided. Thus, an optimal protection of the sensitive cable connector can be ensured even in a harsh environment.
A preferred embodiment of the invention provides that the housing and the socket are provided with complementary structures for longitudinal guidance of the housing in the socket to ensure the alignment of the plug assembly with respect to the socket when inserting the plug assembly into the socket.
Preferably, the housing is provided with a longitudinal groove and the socket is provided with a corresponding counter-longitudinal rib to ensure the alignment of the plug assembly with respect to the socket when inserting the plug assembly into the socket.
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A further optional embodiment of such a connector additionally provides a snap-action latch for the detachable connection of the plug arrangement with the socket in order to reliably prevent the unwanted removal of the cable plug. The latch engages in a recess on the outside of the housing.
A further subject of the invention is finally a clamping part for use in a plug assembly for use with cables with cable plugs, said plug assembly and the clamping part are formed according to one of the above paragraphs. These plug arrangements and chip parts find application especially with data cables such as RJ45 cables, but also with light guides, power cables and the like.
For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
In each case, in a highly simplified, schematic representation:
1 shows a connector assembly according to the prior art in an exploded view.
FIG. 2 shows an exemplary embodiment of a plug arrangement according to the invention, likewise in exploded view, with illustration of the cable plug; FIG.
FIG. 3 shows the plug arrangement of FIG. 2 from a different direction and with the cable plug resting against the tensioning part in the installed position and the cable; FIG.
Figure 4 is a longitudinal section along the cable axis through an assembled connector assembly, without cables and cable connector.
5 shows a clamping part in an embodiment according to the invention in a slightly perspective side view;
FIG. 6 shows the clamping part of FIG. 5 in a view from the front, from the direction of the cable connector; FIG.
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Fig. 7 is a side view of the clamping member of Fig. 4;
Fig. 8 is a rotated by 90 degrees side view of the clamping part of Fig. 7;
9 is a side view rotated by 45 degrees of the clamping part of Fig. 7.
Fig. 10 is a section along the line X-X of Fig. 9;
11 is a view of the clamping part of Figure 7 on the rear end ..;
FIG. 12 shows a longitudinal section through the clamping part of FIG. 7 along the line XIIXII of FIG. 10 in the direction of the small arrows; FIG.
FIG. 13 shows a longitudinal section through the tensioning part of FIG. 7 along the line XIIXII of FIG. 10 against the direction of the small arrows; FIG.
FIG. 14 shows a longitudinal section rotated by 90 degrees through a plug arrangement as in FIG. 4, but with the cable plug inserted; FIG.
FIG. 15 shows a longitudinal section along the cable axis according to FIG. 4, now with inserted and cable plug, but without cable; FIG.
Fig. 16 is a front view of the connector assembly of Fig. 14;
Fig. 17 is a front view of a clamping member with an inserted cable connector;
Fig. 18 is a front view corresponding to Figure 17, with a cable connector inserted different dimension.
Fig. 19 is a view of the housing from the side of the clamping sleeve forth; and
Fig. 20 is an illustration of an overall system with cable, cable connector according to the invention and complementary socket in one device.
By way of introduction, it should be noted that in the differently described embodiments, the same parts with the same reference numerals or the same Bauteilbe9 / 34
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Drawings are provided, wherein the disclosures contained in the entire description can be transferred mutatis mutandis to the same parts with the same reference numerals or identical component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and these position information in a change in position mutatis mutandis to transfer to the new location.
The plug arrangement shown in FIG. 1 as a cable plug protection for in particular prefabricated RJ45 cable plug consists of a plug-in socket in a designed housing 1, the rear end is provided with an external thread 2. The cable connector is received and fixed in the assembled state of the connector assembly inside this housing 1. From behind, i. from the cable side, a clamping sleeve 3 can be screwed onto the housing 1 and thus a threaded connection can be formed. For this purpose, an internal thread 4 is arranged at the front, the housing 1 facing the end of the clamping sleeve 3. At the latest as soon as this threaded connection is formed, thereby also a radially compressible and the data cable comprehensive clamping part 5 is compressed, thereby clamping the cable in the clamping part 5 and thus also in the plug assembly. When tightened threaded connection so the clamping sleeve 3, the clamping part 5, the housing 1 and the cable are clamped together.
In order to position and fix the cable connector S in the housing 1, according to the prior art shown in FIG. 1, at least two adapter pieces 6 are provided which must be placed around the cable connector and inserted into the front end of the tensioning member 5 with a rear heel , This entire arrangement must then be manually inserted into the housing 1 in this configuration, in which it must be manually held by the user. The plug assembly is supplemented by a sealing ring 7 which is inserted between the housing 1 and clamping sleeve 3 and ensures dust and water resistance. This connector assembly as discussed above evaluates a conventional cable connector, such as an RJ45 connector, to a / 34
N2018 / 28300-AT-00 extremely rugged and lockable solution on. For different types of cable connectors, the adapter pieces 6 are to be selected accordingly.
A further improved solution with fewer components and easier assembly is shown in FIGS. 2 to 17. The inventive connector assembly is applicable to all types of cable connectors and cables, especially for data cables and RJ45 cable connector, but also for optical fibers and their correspondingly designed connectors, power cables and many more. Instead of cable connectors with multiple contact elements and individual contacts can be used. The invention will be explained below with reference to embodiments of data cables with RJ45 cable connectors, but this is not to be regarded as limiting.
As can be seen in Fig. 2, within the preferably cylindrical and open on both sides of the housing 1 and the preferably tapered rearward clamping sleeve 3, only a clamping member 5 is used, but according to the invention on the housing 1 facing the front end itself for receiving and Positioning of a cable connector S with a spring arm F - the cable is not shown here for the sake of clarity of the drawing - is designed in a predetermined position within the housing 1. The housing 1 is preferably made of die-cast metal, in particular zinc diecasting, preferably with a coating, in particular nickel or chromium. Also housing 1 made of plastic are of course possible. The clamping part 5, preferably made of polyacetal (POM) or polyamide (PA), while it is freely rotatable about the central cable axis, as long as it is outside the housing 1 and the threaded connection between the housing 1 and clamping sleeve 3 - in Fig. 4th is a sectional view of a plug assembly of housing 1, clamping sleeve 3 and clamping part 5 shown in longitudinal section is not yet made. It can thereby be applied in any position on the cable in the course of assembly of the connector assembly. Only after insertion into the housing 1 is the clamping part 5 held therein by means of guiding structures explained below, so that the cable plug is positioned, clamped and fixed relative to the housing 1.
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At the front end of the clamping part 5, which is shown in FIGS. 5 to 13 in different views and sections, a plurality of circumferentially distributed around the central longitudinal axis and oriented parallel thereto fingers 8 and 8a are formed. Preferably, three fingers 8, 8a are formed and extend over up to about one third of the total length of the clamping part 5. The cable connector S is, as shown in FIG. 3 - inserted between the fingers 8, 8a and then at the latest when tightened Threaded housing 1 with clamping sleeve 3 between the fingers 8, 8 a recorded and then due to the leadership of the clamping part 5 in the housing 1 and the clamping between the clamping part 5 and within the housing 1 safely positioned in a well-defined position and also by the clamping between the housing 1 and the clamping part 5 securely fixed in the connector assembly.
Particularly preferred is an embodiment in which a clamping part 5 is designed for use with cable connectors S of different external dimensions. This can be achieved, for example, by virtue of the fact that at least one shoulder 9 or a shoulder is formed on at least one of the fingers 8, 8a in the circumferential direction and in the longitudinal direction of the tensioning part 5 as a front end stop surface for the cable connector S. This can be clearly seen in FIG.
Preferably, two or more shoulders 9 are provided. The rear side of a cable connector S inserted between the fingers 8, 8a then comes to rest on one of the shoulders 9, depending on the dimensions of the cable connector. This is shown for two different cable connector S in Figs. 16 and 17 in a front view. As soon as the clamping sleeve 3 is screwed onto the housing 1 and the threaded connection is tightened, the rear end of the cable connector S is then received between the fingers 8, 8a, abuts at least one end face of one of the shoulders 9 and is thus secure within the housing 1 positioned and fixed. For safe and well-defined positioning and also for guiding the cable connector S during insertion into the clamping part 5 are advantageously in cross-section tooth-shaped / 34
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Guide ridges 8b formed on the fingers 8, 8a, which come into contact with the outside of the cable connector S and this lead and hold.
Furthermore, as can be clearly seen in FIGS. 2, 6, 10, 13, 16 and 17, at least one of the fingers 8a can be formed with a radially inwardly projecting web 10, in order thereby to ensure the stability of this finger 8a and thus of the finger entire clamping part 5 to increase significantly. This is particularly advantageous when this holding arm 8a is intended and designed to hold a spring tongue F of the cable connector S in the deformed in the direction of the cable connector housing position, so that the spring tongue F obstructs neither the assembly of the connector assembly, nor the manufacture and release the connector with the counterpart of the inventive connector assembly. The locking and unlocking of the connector is accomplished by other mechanisms on or in the connector assembly and not by the spring tongue F of the cable connector S.
The holding arm 8a for the spring tongue F can be made in one piece, but it could be designed to be divided in the direction of the longitudinal axis of the clamping part 5, wherein the dividing region extends only over the length of the receiving region of a cable connector S.
Similar to the known embodiment of the clamping part 5, this has a cylindrical middle part 11 adjoining the fingers 8, 8a of the front end and a rear end 12 opposite the fingers 8, 8a, preferably tapered.
This rear end 12, in turn, has at least two radially compressible fingers 13, whose surfaces facing the cable K are designed for increased form or frictional engagement with the cable K. For example, these surfaces may be profiled in a sawtooth manner, so that upon compression of the fingers 13 in the course of tightening the threaded connection between housing 1 and clamping sleeve 3, the tips of the saw teeth in the plastic sheath of the cable and thus cause the clamping between the cable K and clamping part 5. As a result, tensile stress of the cable K from the cable connector S / 34
N2018 / 28300-AT-00 separated and instead transmitted via the clamping part 5 on the housing 1 and received by this or by the connector between the housing 1 and the corresponding socket.
The clamping member 5 is preferably also made in one piece and has, in order to apply it easily and quickly to the cable can, on the length of the clamping member 5 continuous longitudinal slot 15. This offers the possibility of the clamping part 5 to pull apart in the circumferential direction, after which it can then be easily pushed onto the cable K. In the groove formed between the two longitudinal sides of the slot 15 of the clamping member 5 engages a projecting from the inner wall of the plug housing 1, parallel to the longitudinal axis of the same extending a longitudinal web. Longitudinal groove of the clamping sleeve and longitudinal web cooperate and form a guide or a rotation and cause the exact alignment of the clamping sleeve in the circumferential direction of the plug housing
However, the clamping part 5 can also be formed completely closed in the circumferential direction and is then pushed onto the cable K in the longitudinal direction before attaching the cable connector S. For the torsion-resistant guide in this case, then appropriate structures on clamping part 5 and in the housing 1 form, for example, not a full thickness of the clamping member 5 penetrating longitudinal groove or aligned longitudinal axis direction projections in or on the clamping part 5 for receiving a longitudinal rib in the housing first or for engaging in a longitudinal groove in the housing 1, so that the rotation of the clamping member 5 is ensured in the housing 1.
When assembling the inventive connector assembly, the clamping sleeve 3 is first pushed over the end of the cable with the cable connector. Thereafter, the clamping part 5 can be applied to the cable, wherein the cable is guided through the longitudinal slot 15 to the longitudinal central axis of the clamping part 5 out. The clamping part 5 is then pushed forward on the cable connector, which thereby comes to rest between the fingers 8 and is supported by the shoulders 9. The entire arrangement of cable, cable connector and clamping part 5 is then inserted into the housing 1.
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Preferably, a cross-sectional constriction in the form of a perforated partition wall 16 is arranged in the housing 1, which forms a stop for the front end of the fingers 8. At least the two immediately adjacent to the longitudinal edge of the longitudinal slot 15 of the clamping member 5 fingers 8 form with their end faces the stops for the longitudinal positioning of the clamping member 5 in the housing 1. Through the opening in the partition wall 16 projects, as shown in Fig. 14 in longitudinal section , the front end of the cable connector S, which projects beyond the front sides of the fingers 8, 8a of the clamping part 5 towards the front. The opening is formed according to the cross-sectional profile of the cable connector S and possibly provided with a recess for receiving the front portion of the spring arm F of the cable connector S. Its rear area is so preferred held by the finger 8a in depressed position. Preferably, the recess in the partition wall 16 is dimensioned such that the front end of the finger 8 a and taken the partition wall 16 can pass through to hold the spring arm F safely in depressed position. As a stop on the partition wall 16, the end face of the first shoulder 9 of the finger 8a is provided in this case. At most, could also have the partition 16 has a longitudinal axis extending recess for receiving the finger 8a.
At most, the function of depressing the spring arm F can also be effected by a correspondingly dimensioned recess in the partition 16. The partition 16 is disposed within the housing 1 at a longitudinal location selected to obtain the desired positioning of the cable connector S in the housing 1 and with respect to the receptacle to ensure optimum plug connection. For this case, an embodiment of the clamping part 5 is provided, in which no spring arm F cross-long finger 8a is present, but all fingers 8 have substantially the same length.
In the housing 1 of the inventive connector assembly can also be on the clamping sleeve 3 facing side of the partition 16 Längsführungsnuten 1 b or longitudinal guide rails worked out, which are aligned with the corner regions / 34
Run N2018 / 28300-AT-00 of the opening in the partition wall 16 and the correct direction in the circumferential direction of the cable connector S when inserted into the housing 1 serve. Longitudinal grooves 1a on the counterpart of the housing 1 in the socket facing side of the partition 16 are mainly used for indexing to prevent confusion with other, similarly constructed connector types. They can also optionally serve as guides for circumferentially correct merging to produce the plug connection.
To complete the inventive connector assembly, the clamping sleeve 3 is screwed onto the housing 1, so that the threaded connection between the external thread 2 of the housing 1 and the internal thread 4 of the clamping sleeve 3 is produced. As a result, on the one hand, the rear fingers 13 of the clamping part 5 are pressed onto the cable K and thus the clamping part 5 is clamped on the cable K. At the same time the clamping member 5 is brought in with his fingers 8 and possibly 8a into abutment with the partition 16 and clamped between the clamping sleeve 3 and partition 16 so that all components braced against each other and the cable connector S safely and protectively positioned in the housing 1 and is fixed. It is ensured by the clamping of the clamping part 5 and the recording of the cable connector S in or on the front side of a very accurate positioning in the longitudinal axis direction as well as in the circumferential direction of the connector assembly. On the other hand, the elasticity of the material of the tightening member 5 and little play, i. a small gap 16a, between the inner wall of the recess in the partition wall 16 and the cable connector S the possibility that the cable connector S can be pivoted by a small angle at least in the direction of at least one of the two main axes of the recess in the partition 16. Thus, small tolerances and differences in the orientation of the connector assembly and its counterpart can be compensated, whereby the mating of the two complementary modules for making the connection between two cable ends or a cable end and a device is much easier.
If necessary, latching projections 8c can optionally be seen on the end faces of the fingers 8, 8a, in order to fix the clamping part 5 within the housing 1/34
N2018 / 28300-AT-00 be designed to fix the clamping part 5 in the housing 1 and secure against pulling or sliding out. Locking projections 11a, which engage in complementary structures in or on the inside of the housing 1, could possibly also be positioned on the peripheral surface of the clamping part 5, in the region of the fingers 8, 8a or of the middle part 11, as shown by way of example in FIG.
Using a plug assembly as described above, a particularly robust connector can be realized by a female connector B for the corresponding receptacle of the connector assembly 1, 3, 5 is provided. The housing 1 may possibly be provided with a longitudinal groove and the socket B, which is installed, for example as a built-in connector in a device G (see Fig. 20), may be provided with a corresponding counter-longitudinal rib to the orientation of the connector assembly with respect to the Socket B to ensure the insertion of the connector assembly into the socket. In order to prevent the unintentional removal of the cable connector, may be provided as an optional further feature additionally a snap or spring latch for releasably connecting the connector assembly with the socket. This spring latch then preferably engages in a recess 17 on the outside of the housing 1.
The embodiments and the foregoing description and the accompanying drawings disclose possible embodiments, but the invention is not limited to the specifically illustrated embodiments. Rather, various combinations of the individual embodiments are mutually possible and are these variations due to the teaching of the subject invention in the skill of those working in this technical field.
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LIST OF REFERENCE NUMBERS
casing
longitudinal groove
guide
external thread
clamping sleeve
inner thread
tensioning part
adapter piece
sealing ring
Front finger
Arm finger
web
catch projection
shoulder
web
midsection
catch projection
Tapered rear end
Back finger
sawtooth
longitudinal groove
partition wall
recess
gap
deepening
electric wire
cable connector
spring arm
Rifle
Device / 34
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权利要求:
Claims (17)
[1]
A connector assembly for use with cables (K) with cable connectors (S), in particular for data cables such as RJ45 cables, optical fibers, power cables and the like, comprising:
a) a housing (1) for receiving the cable connector (S), with a arranged on one of its surfaces thread (2);
b) a radially compressible and the cable (K) encompassing and in the housing (1) received clamping part (5) which clamps the cable (K) in a compressed state;
c) a threaded sleeve (4) having a clamping sleeve (3) for forming a threaded connection with the thread (2) on the housing (1);
wherein at tightened threaded connection the clamping sleeve (3), the clamping part (5), the housing (1) and the cable (K) are clamped together, characterized in that the cable connector (S) facing the front end of the clamping part (5) for receiving Positioning of the cable connector (S) in a predetermined position at the front end of the clamping part (5) formed or provided with at least one stop for the cable connector (S), wherein at tightened threaded connection of the cable connector (S) relative to the housing (1) and the Clamping part (5) is positioned against rotation and fixed.
[2]
2. Plug arrangement according to claim 1, characterized in that in the interior of the housing (1) at least one cross-sectional constriction (16) is arranged as a stop for the front end of the clamping part (5) in the longitudinal axis direction, wherein the clamping part (5) at least when tightened threaded connection is supported in the longitudinal axis direction of the cross-sectional constriction (16) and thus accurately positioned in the longitudinal axis direction of the housing (1).
[3]
3. Plug arrangement according to claim 2, characterized in that the clamping part (5) at least when tightened threaded connection between the
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Clamped cross-sectional constriction (16) and the clamping sleeve (3) or a cooperating element and thus accurately positioned in the longitudinal axis direction of the housing (1).
[4]
4. Plug arrangement according to one of claims 1 to 3, characterized in that the clamping part (5) within the housing (1) is guided against rotation about its longitudinal axis.
[5]
5. Connector assembly according to claim 4, characterized in that in the interior of the housing (1) at least one parallel to the longitudinal axis direction extending guide for the clamping part (5) is arranged, said guide having a complementary structure on the clamping part (5) or with the cable connector (S) cooperates itself.
[6]
6. Plug arrangement according to claim 5, characterized in that the guide for the clamping part (5) and the complementary structure on the clamping part as parallel to the longitudinal axis direction of the housing (1) extending web and as parallel to the longitudinal axis direction of the housing (1) extending groove are formed ,
[7]
7. Plug arrangement according to one of claims 1 to 6, characterized in that at the front end of the clamping part (5) a plurality circumferentially distributed around the central longitudinal axis and parallel thereto oriented fingers (8, 8a) as a receptacle or stop for the cable connector (S) and are formed as a stop for the cross-sectional constriction (16) of the housing (1), which bear against this cross-sectional constriction when the threaded connection is tightened.
[8]
8. Connector assembly according to claim 7, characterized in that at least one of the fingers (8, 8a) seen laterally in the circumferential direction, at least one shoulder (9) as a receptacle or stop for the cable connector (S) is formed.
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[9]
9. Plug arrangement according to claim 7 or 8, characterized in that on at least one of the fingers (8, 8a) a radially inwardly projecting web (8b, 10) is formed.
[10]
10. Plug arrangement according to one of claims 7 to 9, characterized in that at least one of the fingers (8a) is positioned and dimensioned such that a possible spring arm (F) of the cable connector (S) by this finger (8a) in a housing the cable connector (S) pressed position is held.
[11]
11. Plug arrangement according to one of claims 1 to 10, characterized in that the clamping part (5) adjoining the fingers (8, 8a) of the front end cylindrical central part (11) and the fingers (8, 8a) opposite, preferably conical tapered rear end (12), wherein the tapered rear end (12) of the clamping member (5) has at least two radially compressible fingers (13), the cable (K) facing surfaces (14) for increased positive or frictional engagement with the Cable (K) are designed.
[12]
12. Plug arrangement according to one of claims 1 to 11, characterized in that a recess (16 a) in the housing (1) for receiving a possible spring arm (F) of the cable connector (S) and / or a finger (8 a) of the clamping part (5 ) is provided, wherein the spring arm (F) is optionally held in the depressed position in the recess.
[13]
13. Plug arrangement according to one of claims 1 to 12, characterized in that the clamping part (5) over the length of the clamping part (5) continuous axis-parallel longitudinal slot (15), wherein the clamping part (5) stretched in its circumferential direction elastically and on the cable (K) can be pushed.
21/34
N2018 / 28300 AT-00-
[14]
14. Plug connection using a plug arrangement according to one of claims 1 to 13, characterized in that for the formation of at least one electrical connection weiters a female connector for the corresponding receptacle of a plug assembly according to one of claims 1 to 13 is provided.
[15]
15. A connector according to claim 14, characterized in that the housing (1) and the socket with complementary structures for longitudinal guidance of the housing (1) are provided in the socket to the orientation of the plug assembly with respect to the socket when inserting the plug assembly in to ensure the socket, wherein preferably the housing (1) is provided with a longitudinal groove and the socket is provided with a corresponding counter-longitudinal rib,
[16]
16. A connector according to claim 14 or 15, characterized in that in addition a snap-action latch for releasably connecting the plug assembly is provided with the socket, wherein the snap-in latch engages in a recess (17) on the outside of the housing (1).
[17]
17. Clamping part (5) for use in a plug arrangement for use with cables (K) with cable plugs (S), in particular for data cables such as RJ45 cables, light guides, power cables and the like, according to one of claims 1 to 13, characterized in that the clamping part (5) is designed according to one of claims 7 to 11.

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同族专利:

公开号 | 公开日

KR20200138357A|2020-12-09|

CN112243552A|2021-01-19|

BR112020020471A2|2021-01-12|

CA3095778A1|2019-10-10|

AU2019248403A1|2020-11-26|

AT521108A3|2020-01-15|

JP2021520606A|2021-08-19|

AU2019248403B2|2021-10-21|

EP3776751A1|2021-02-17|

CN209929554U|2020-01-10|

US20210098932A1|2021-04-01|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

DE102020118264A1|2020-07-10|2022-01-13|Olympus Winter & Ibe Gmbh|video endoscope|US6582248B2|2001-11-29|2003-06-24|Neutrik Ag|Durable RJ-45 data connector assembly|

DE102009042678B3|2009-09-23|2011-05-12|Harting Electronics Gmbh & Co. Kg|Cable clamping with a clamping element|

DE102010011370B3|2010-03-12|2011-04-21|Phoenix Contact Gmbh & Co. Kg|Cable connectors, in particular multi-pole cable connectors|

US8467654B2|2010-04-05|2013-06-18|Avago Technologies General Ip Pte. Ltd.|Modular connector assembly configured with both optical and electrical connections for providing both optical and electrical communications capabilities, and a system that incorporates the assembly|

CN201805068U|2010-09-27|2011-04-20|宁波音王集团有限公司|RJ-45 network joint having outer housing|

CN202495629U|2011-12-30|2012-10-17|宁波海曙区西尚电子有限公司|Data plug connector|

CN202405491U|2011-12-30|2012-08-29|宁波海曙区西尚电子有限公司|Novel data connector|

CN103326179B|2013-05-17|2016-07-06|宁波日鼎电子科技有限公司|Dismountable RJ45 network joint protection device|

CN104716492B|2013-12-13|2017-05-24|富士康电脑接插件有限公司|Electric connector|

CN204030082U|2014-07-01|2014-12-17|陈忠伟|RJ-45 signal socket connector|

CN204407595U|2015-02-05|2015-06-17|深圳市创亿欣精密电子股份有限公司|Waterproof network connector and RJ45 connector|

CN104600486B|2015-02-05|2018-08-24|深圳市创亿欣精密电子股份有限公司|Waterproof network connector and RJ45 connectors|

KR101749279B1|2015-06-04|2017-06-21|엘지이노텍 주식회사|Waterproof cable connector|

WO2016195209A1|2015-06-04|2016-12-08|Lg Innotek Co., Ltd.|Waterproof cable connector|

CN206401612U|2016-12-31|2017-08-11|黄山中鼎信息技术有限公司|A kind of video camera tail circuit|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

AT502832018|2018-04-06|BR112020020471-4A| BR112020020471A2|2018-04-06|2019-04-04|CONNECTOR ARRAY FOR CABLE USE AND FITTING CONNECTION USING A CONNECTOR ARRAY|

KR1020207031334A| KR20200138357A|2018-04-06|2019-04-04|Plug device|

AU2019248403A| AU2019248403B2|2018-04-06|2019-04-04|Plug assembly for data cables|

PCT/EP2019/000110| WO2019192753A1|2018-04-06|2019-04-04|Plug assembly for data cables|

EP19728577.8A| EP3776751A1|2018-04-06|2019-04-04|Plug assembly for data cables|

JP2020554427A| JP2021520606A|2018-04-06|2019-04-04|Data cable plug configuration|

CN201980037472.5A| CN112243552A|2018-04-06|2019-04-04|Plug assembly for data cable|

US17/045,730| US20210098932A1|2018-04-06|2019-04-04|Plug assembly for data cables|

CN201920457070.8U| CN209929554U|2018-04-06|2019-04-04|Plug device, plug connection and clamping element|

CA3095778A| CA3095778A1|2018-04-06|2019-04-04|Plug arrangement|

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