Connector assembly for connecting cables

专利摘要:
The invention relates to a connector assembly (1) for connecting lines for pressurized fluids, comprising a connector receptacle (2) with an insertion opening (3) arranged on an insertion side (4), in which insertion opening (3) a receiving recess (27) is arranged is a connector (7) having a plug-in portion (8) which in the insertion opening (3) of the connector receptacle (2) can be inserted, a detent spring (13) which is arranged on the connector receptacle (2). An anti-rotation element (28) in the receiving recess (27) of the connector receptacle (2) can be inserted and fixed in this and the connector (7) has on its outer side (11) in the longitudinal direction (26) extending Verdrehsicherungsnut (31), which with the anti-rotation element (28) forms a tongue and groove connection (34), so that the connector (7) is secured against rotation relative to the connector receptacle (2).
公开号:AT516151A4
申请号:T50165/2015
申请日:2015-03-03
公开日:2016-03-15
发明作者:
申请人:Henn Gmbh & Co Kg；
IPC主号:

专利说明:

The invention relates to a connector assembly for connecting lines for pressurized fluids.
A generic connector assembly is known from AT 509 561 B1, which shows a connector receptacle and a connector which can be plugged into the connector receptacle. In order to prevent the plug connector from being inserted into the connector receptacle, a blocking body is provided which can be inserted into a receiving recess in the connector receptacle.
Another connector assembly is known from AT 512 397 B1.
The present invention has for its object a Steckerbau¬ group to create, which offers the possibility demandswei¬se against relative rotation to secure the connector receptacle.
This object of the invention is solved by the features according to claim 1.
According to the invention, a connector assembly is designed for connecting lines for pressurized fluids. The connector assembly includes a connector receptacle having an insertion opening disposed on a male side, in which insertion opening a receiving recess is disposed. Furthermore, the connector assembly comprises a plug connector with a plug-in section which can be inserted into the insertion opening of the plug connector receptacle, wherein the plug-in opening of the plug connector receptacle surrounds the plug-in portion of the plug connector at least in sections when connected to the plug connector. In addition, the includes
A connector assembly, a detent spring, which is arranged on the connector receptacle and engages in a closed position with at least one holding portion in a radially encircling in an outer side of the connector groove, so that a detachment of the plugged into the connector receptacle connector is prevented. In addition, a Verdrehsicherungsele¬ ment in the receiving recess of the connector receptacle can be inserted and fixed in this receivable. The connector has on its outer side a longitudinally extending Verdrehsicherungsnut, which forms a tongue and groove connection with the Verdreh¬ assurance element, so that the connector relative to the connector receptacle is secured against rotation.
An advantage of the design of the connector assembly according to the invention lies in the fact that the anti-rotation element can optionally be used in the connector receptacle. If an anti-rotation element is inserted into the plug connector receptacle, then it can be achieved that this together with the plug connector forms a tongue and groove connection and thus the angle of the plug connector can be predetermined and fixed relative to the connector receptacle. An advantage of forming a Verdrehsicherungsnut in Steck¬ connector is that the connector can be made well in a process for mass production, the anti-rotation groove is easy to introduce into the connector. In addition, relatively high torques can be transmitted via the anti-rotation groove or the anti-rotation element inserted in the connector receptacle. In addition, connectors with or without anti-rotation groove can be produced by only a slight change in the production tool.
Furthermore, it may be expedient that the receiving recess in the insertion opening of the connector receptacle is designed in the form of a T-shaped groove extending in the longitudinal direction, wherein the rotation-preventing element can be received in the receiving recess in the receiving recess and can be accommodated in this manner on the insertion side of the connector receptacle , The advantage here is that the anti-rotation element can be easily inserted into the T-shaped groove. By achieved by means of the T-shaped groove form-fitting connection between the connector receptacle and anti-rotation element, the anti-rotation element can be kept as firmly as possible in the connector receptacle.
Furthermore, it can be provided that the anti-rotation element has a latching projection and can be fixed by displacement in the longitudinal direction in a latching position in the receiving recess. The advantage here is that the Verdreh¬ assurance element can be secured by the locking projection against falling out of the Steck¬verbinderaufnahme. In addition, given by the latching projection when inserting the anti-rotation element in the Steckverbin¬deraufnahme a feedback on the achievement of Verdrehsicherungselementes the correct end position or locking position to the user.
In addition, it can be provided that an insert element is arranged in the receiving recess of the connector receptacle, which interacts with the latching projection of the anti-rotation element and serves as latching projection counterpart. The advantage here is that the exact locking position can be determined by the insert element or that by the Einlegeele¬ment the holding force or the latching force of the anti-rotation element can be be¬stimmt.
Also advantageous is an embodiment, according to which it can be provided that the insert element is formed from a plastic material. An insert element made of a plastic material can be produced easily and inexpensively in a production process for mass production. In addition, a Einlelegeelement of a plastic material on good elasticity properties, whereby it is well suited for use in a detent positioning.
Furthermore, it can be expedient that the anti-rotation element is formed from a sheet-metal forming part. In this case, it is advantageous that the anti-rotation element can be produced well in a process for mass production. Moreover, an anti-rotation element, which is formed as a sheet metal forming part, has a high strength, so that the risk of breakage of the anti-rotation element is reduced.
In addition, it can be provided that the anti-rotation element is designed as a cup with flange. The advantage here is that the Verdrehsi¬ tion element can be well inserted into the connector receptacle and that the anti-rotation element can be handled as easy as possible. In addition, such an anti-rotation element can be produced well in a deep-drawing process.
Furthermore, it can be provided that the connector receptacle is formed from a sheet metal part, wherein the receiving recess is formed by a Ausstan¬zung. The advantage here is that the connector receptacle somiteine can have a high strength and is easy to produce.
In addition, it can be provided that the receiving recess is partially formed in an inner wall or in an end wall of the connector receptacle thus the T-shaped groove between the inner wall and Außenwan¬dung the connector receptacle is formed. The advantage here is that such a T-shaped groove can be easily formed.
Finally, it can be provided that the connector receptacle is formed as an integral part of a vehicle muffler. The advantage here is that the vehicle silencer thereby has a direct connection possibility of a connector.
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 is a perspective view of a connector assembly in Explo¬sionsdarstellung;
Figure 2 is a side view of the connector assembly in assembled condition;
Fig. 3 is a cross-sectional connector assembly in assembled form, particularly along section line III-III of Fig. 2;
4 is a perspective view of an anti-rotation element part-sectional view;
5 shows a view from below of the anti-rotation element;
6 is a perspective view of the connector assembly with teilwei¬ser sectional view, wherein the connector is not shown;
7 is a perspective view of the installation situation of the connector assembly.
By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component designations, wherein the disclosures contained in the entire description apply mutatis mutandis to the same parts with the same reference numerals. same component names can be transferred. Also, the location information chosen in the description, such as up, down, laterally, etc. related to the directly described and illustrated figure and these conditions are to be transferred in a change in position mutatis mutandis to the new situation.
Fig. 1 is a perspective view of a connector assembly 1, shown in a disconnected state, so that the individual components or their relationship can be shown.
The connector assembly 1 includes a connector receptacle 2 having an insertion opening 3 disposed on a male side 4. One of the Ein¬steckseite 4 axially opposite line side 5 may be aus¬ educated variously.
For example, it is conceivable that on the line side 5, a pressure line for guiding a fluid, in particular a pressurized fluid is arranged.
In an alternative variant, provision may also be made for a vehicle silencer 6 to be arranged on the line side 5, or for the connector housing 2 to be formed as an integral component of a vehicle silencer 6.
Such a connector assembly 1 can be used for example in a motor vehicle in the charge air line.
Furthermore, the connector assembly 1 comprises a connector 7 having an insertion portion 8 and an axially opposite attachment side 9. On the other attachment side 9 of the connector 7, for example, an elastic connection hose 10 may be arranged or fixed to the connector 7.
Alternatively, it can be provided that the connector 7 is rigidly connected at its fastening side 9 to a component in the compressed air chain, such as a turbocharger.
The connector 7 can be inserted with its insertion section 8 into the insertion opening 3 of the connector receptacle 2. In order to facilitate this insertion process, it can be provided that a bevel 12 is formed on the insertion section 8 of the plug connector 7 on an outer side 11.
In order to lock the inserted into the connector receptacle 2 connector 7 in the connector receptacle 2 so that a detachment of the connector 7 is prevented by the connector receptacle 2, a detent spring 13 is arranged in the Steckver¬binder 7, which with the connector 7 in Ein¬ can be brought.
Provided here is that the detent spring 13 has at least one fixing section, which is in the closed position of the detent spring 13 with the plug connector 7 in engagement and thus prevents detachment.
In particular, as can be seen from FIG. 1, it can be provided that, in a closed position of the detent spring 13, a plurality of fastening sections 14, 15, 16, 17 are each provided by a slot 18, 19, 20 that rotates radially in a section of the connector receptacle 2 21 protrude into an inner region 22 of the plug connector receptacle 2 and thus form a plurality of holding sections.
Corresponding to the attachment portions 14,15,16,17 is formed on the Au¬ßenseite 11 of the connector 7, an at least partially radially umlau¬fende groove 23, which in a fully inserted into the connector receptacle 2 connector 7 in a plane with the Slits 18,19,20, 21 of the connector receptacle 2 is located. As a result, the fastening sections 14, 15, 16, 17 of the closed detent spring 13 can engage through the slots 18, 19, 20, 21 into the groove 23 of the connector 7, which extends radially at least in regions. Thus, a detachment of plugged into the Steckersteckaufnahme 2, connector 7 is prevented.
The fact that the groove 23 is formed at least in regions means that this can be embodied, for example, only in the region of the fastening sections 14, 15, 16, 17 and the remainder of the connector 7 is not formed as a groove 23. Alternatively, it can be provided that the Groove 23 entirely formed on Steckver¬binder 7 circumferentially.
Between the insertion section 8 and the groove 23 of the connector 7 can be formed directly before the groove 23, a radially encircling run-on slope 24 for the Befes¬tigungsabschnitte 14,15,16,17 of the detent spring 13, which An¬ slope 24 in particular a side wall of the groove 23rd can form and which starting slope 24, the mounting portions 14,15,16,17 of the closed detent spring 13 when inserting the connector 7 in the connector receptacle 2 radially moved apart or pressed apart, so that a plugging of the connector 7 in the connector receptacle 2 is possible.
By the detent spring 13, the connector 7 can be secured against displacement entlangeiner parallel to the central axis 25 extending longitudinal direction 26 relative to the Steck¬verbinderaufnahme 2. A relative rotation with respect to the Mit¬telachse 25 of the connector 7 and the connector receptacle 2 zueinanderkann can not be prevented by the detent spring 13.
In order to prevent a relative rotation between connector 7 and connector receptacle 2 with respect to the central axis 25, it is provided that a receiving recess 27 is arranged in the insertion opening 3 of the connector receptacle 2, which can be used to secure an anti-rotation element 28 , The receiving recess 27 can be arranged in particular in the inner region 22 of the insertion opening 3. Furthermore, it can be provided that the receiving recess 27 is formed as a T-shaped groove 29.
In order to be able to use the anti-rotation element 28 in the receiving recess 27 by displacement in the longitudinal direction 26, provision can be made for the receiving recess 27 to be open on the insertion side 4, so that the anti-rotation locking element 28 can be inserted.
The anti-rotation element 28 has an anti-rotation body 30, which cooperates with a Verdrehsicherungsnut 31 in the connector 7. The anti-rotation element 28 may be formed as sheet metal forming part, in particular it can be provided that the anti-rotation body 30 is formed in the form of a cup 32 and that at this a circumferential or at least partially circumferential flange 33 is connected. The flange 33 is adapted to be inserted into the T-shaped groove 29 and thus form a positive connection between the T-shaped groove 29 and the anti-rotation element 28.
The individual components, in particular connector receptacle 2, connector 7 and anti-rotation element 28, are shown in FIG. 1 in an exploded view, wherein they can be joined together by displacement in the longitudinal direction 26.
In order to use the anti-rotation element 28 in the receiving recess 27, it may be provided that the use of a suitable tool is necessary.
FIGS. 2 and 3 show a further embodiment of the connector assembly 1, which is possibly independent of itself, wherein the same reference numerals or component designations are again used for the same parts as in the preceding FIG. In order to avoid unnecessary repetitions, reference is made to the detailed description in the preceding FIG. 1 or reference is made.
FIG. 2 shows a side view of the connector assembly 1, which is shown with respect to the insertion side 4. The connector assembly 1 is shown here in an assembled state. As can be clearly seen from this connection, the anti-rotation element 28, together with the anti-rotation groove 31, which is arranged in the plug connector 7, forms a tongue-and-groove connection 34, by means of which a relative rotation between the plug connector receptacle 2 and the plug connector 7 can be prevented.
3 shows the connector assembly 1 in a cross section, in particular according to the section line III-III according to FIG. 2.
In Fig. 3, the connector assembly 1 is shown in the assembled state, wherein the anti-rotation element 28 and the connector 7 are inserted into the connector receptacle 2. It can be seen here that it can be provided that the anti-rotation element 28 can have a latching projection 35 which corresponds to a latching projection counterpart 36 and can thus be fixed in a latching position 37. The formation of a detent projection 35 can serve to ensure that the anti-rotation element 28, when it is inserted into the receiving recess 27, is positioned in this position as far as possible in a stationary manner.
Furthermore, it can be provided that the connector receptacle 2 comprises an insertion element 38, by which the latching projection counterpart 36 is formed. The insert member 38 may preferably be formed of a thermoplastic such as PP. The insert element 38 can in this case be produced, for example, by an injection molding process.
In particular, it may be provided that the connector receptacle 2 in the area of the insertion opening 3 an inner wall 39 and angled at 90 ° thereafter an end wall 40 and angled at this 90 ° anschlie¬ ßend an outer wall 41 has. The outer wall 41 is thus turned over by 180 ° to the inner wall 39.
The insert element 38 can be arranged between the inner wall 39 and the outer wall 41, wherein the receiving recess 27 is partially formed in the Innenwan¬dung 39 and in the end wall 40 and the T-shaped groove 29 can be formed together with the insert member 38.
Fig. 4 shows a perspective view of a possible embodiment of the anti-rotation element 28, this being shown partially cut away. The orientation of the longitudinal direction 26 shows the position of the anti-rotation element 28. The side surfaces 42 are in the installed state with the anti-rotation groove 31 in engagement. The end faces 43 are facing the insertion side 4 or the conduit side 5 of the connector receptacle 2.
As can be seen from FIG. 4, provision can be made for a flange 33 to be formed in the region of the side surfaces 42, by means of which the anti-rotation element 28 is received in a form-fitting manner in the T-shaped groove 29.
The flange 33 can either be formed only in the region of the side surfaces 42 or, in an alternative variant, it is also conceivable that the flange 33 is designed as a circumferential flange.
As can be seen particularly clearly in FIG. 4, provision can be made for the latching projection 35 to be formed on the flange 33 and to engage it. The latching projection 35 may in this case be in the form of a curvature on the flange 33.
5 shows a view from below of the anti-rotation element 28. As can be seen in FIG. 5, the anti-rotation body 30 has a width 44 and a length 45. The width 44 of the anti-rotation body 30 is in this case adapted to the width of the anti-rotation groove 31. Preferably, the width 44 of the anti-rotation body 30 is selected so that the anti-rotation element 28 forms a clearance fit with the anti-rotation groove 31, so that the
Anti-rotation element 28 smoothly in the longitudinal direction 26 of the Verdrehsiche¬rungsnut 31 can be moved.
As can also be seen from FIG. 5, provision can be made for a taper 46 to be formed in the region of the side surfaces 42.
Fig. 6 shows a perspective view of the connector assembly 1 in which the anti-rotation element 28 is already inserted or installed. DerSteckverbinder 7 is not dar¬gestellt in this view for reasons of clarity. The connector receptacle 2 or the anti-rotation element 28 are shown partially cut.
As can be clearly seen in FIG. 6, the anti-rotation element 28 is accommodated in the T-shaped groove 29 of the connector receptacle 2, the T-shaped part being in the illustration in FIG Nut 29 is bounded on the inside by the inner wall 39 and außen¬seitig by the insert member 38. The resulting Zwi¬schenraum 47 serves to receive the flange 33, resulting in a formschlüssige connection between anti-rotation element 28 and Steckverbin¬deraufnahme 2 results. In addition, the anti-rotation element 28 is fixed by the locking projection 35 in the longitudinal direction 26, so that it can not fall out of the connector receptacle 2.
Fig. 7 shows a possible installation situation of a connector assembly 1 in a motor vehicle.
As can be seen from FIG. 7, it can be provided that in each case one connector receptacle 2 is arranged at both ends of a connecting tube 10. In addition, it can be provided that one of the connector receptacles 2 or both connector receptacles 2 is / are formed as an integral part of a vehicle muffler 6. The one or both connectors 7 kön¬nen be rigidly connected to a component of the compressed air line.
In order to be able to secure the connecting tube 10 with the two plug connector receptacles 2 connected thereto against unwanted twisting, provision can be made for the twist-preventing element 28 to be inserted in one of the two connector receptacles 2. As shown in Fig. 7, the Ver¬drehsicherungselement 28 may be used for example in the connector receptacle 2 with the vehicle muffler 6.
The fact that the anti-rotation element 28 is used only in one of the connectors 2, it can be avoided that there is an internal tension of the connecting tube 10. This is accomplished by allowing those connector receptacles 2, in which the anti-rotation element 28 is not inserted, to rotate freely with the corresponding connector 7.
In addition, it may be provided that only one of the two connectors 7 has a rotation preventing groove 31. Since a connector receptacle 2 in which the anti-rotation element 28 is inserted can only be connected to a plug connector 7, which has an anti-rotation groove 31, the orientation of the connecting tube 10 can thus be clearly defined. If one were to try to insert a connector receptacle 2 in which an anti-rotation element 28 is inserted with a connector 7 without anti-rotation groove 31, the anti-rotation element 28 would collide with the radially encircling start-up slope 24 of the connector 7, and nesting would not be possible.
Thus, it can be achieved by the present embodiment of the anti-rotation element 28 or the connector assembly 1 that a connecting hose 10 can be installed in the correct angular position and in the correct orientation in a motor vehicle.
The embodiments show possible embodiments of the Steckver¬binderbaugruppe 1, wherein it should be noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual Ausführungsvarian¬ten with each other are possible and this variation possibility due Leh¬ technical skill through objective invention lies in the ability of the person skilled in this technical field.
Furthermore, individual features or combinations of features from the different embodiments shown and described can also represent solutions that are inventive, inventive or inventive.
The problem underlying the independent inventive solutions can be taken from the description. All statements on ranges of values in the description given herein are to be understood as including any and all subsections thereof, for example, the indication 1 to 10 should be understood as encompassing all subranges, starting from the lower bound 1 and the upper bound 10, i. all subregions begin with a lower limit of 1 or greater and end at an upper limit of 10 or less, e.g. 1 to 1.7, or 3.2 to 8.1, or 5.5 to 10.
Above all, the individual embodiments shown in FIGS. 1, 2 to 3, 4, 5, 6, 7 can form the subject of independent solutions according to the invention. The relevant objects and solutions according to the invention can be found in the detailed descriptions of these figures.
For the sake of order, it should finally be pointed out that in order to better understand the structure of the connector assembly 1, these or their parts have been shown partly unevenly and / or enlarged and / or reduced in size.
LIST OF REFERENCES 1 connector assembly 30 anti-rotation body 2 connector receptacle 31 Verdrehsicherungsnut 3 insertion 32 cup 4 Einsteckseite 33 flange 5 line side 34 tongue and groove connection 6 vehicle muffler 35 latching projection 7 connector 36 locking projection counterpart 8 insertion 37 locking position 9 mounting side 38 insert 10 connecting hose 39 inner wall 11 outside connector 40 end wall 12 bevel 41 outer wall 13 detent spring 42 side surface 14 first attachment portion 43 end surface 15 second attachment portion 44 width 16 third attachment portion 45 length 17 fourth attachment portion 46 taper 18 first slot 47 space 19 second slot 20 third slot 21 fourth slot 22 inner region 23 radially encircling groove 24 radially circumferential run-up slope 25 center axis 26 longitudinal direction 27 receiving recess 28 anti-rotation element 29 T-shaped groove

权利要求:
Claims (10)
[1]
1. connector assembly (1) for connecting lines for pressurized fluids, comprising: a connector receptacle (2) with an insertion on an insertion (4) angeordne¬ten insertion opening (3), in which insertion opening (3) has a receiving recess (27) is arranged; a plug connector (7) having a plug-in section (8) which can be inserted into the plug-in opening (3) of the plug connector receptacle (2), the plug-in opening (3) of the plug connector receptacle (2) being in the state connected to the plug connector (7) surrounds the insertion portion (8) of the connector (7) zumin¬dest sections; a detent spring (13) which is arranged on the connector receptacle (2) and engages in a closed position with at least one holding portion in a in an outer side (11) of the connector (7) at least partially radial circumferential groove (23), so that a release of the in the Connector receptacle (2) plugged connector (7) is prevented, characterized in that a Verdrehsicherungselement (28) in the Aufnah¬meaussparung (27) of the connector receptacle (2) inserted and fixed in die¬ser is receivable and the connector (7 ) on its outer side (11) has a longitudinal direction (26) extending Verdrehsicherungsnut (31) which forms a tongue and groove connection (34) with the anti-rotation element (28), so¬ that the connector (7) relative to the connector receptacle (2) is twisted.
[2]
2. Connector assembly according to claim 1, characterized in that the receiving recess (27) in the insertion opening (3) of the Steckverbin¬deraufnahme (2) in the form of a longitudinal direction (26) extending T-shaped groove (29) is formed, wherein the Anti-rotation element (28) on the Einstecksei¬te (4) of the connector receptacle (2) in the receiving recess (27) insertable and positively in this is receivable.
[3]
3. Connector assembly according to claim 1 or 2, characterized gekenn¬zeichnet that the anti-rotation element (28) has a latching projection (35) and by displacement in a direction parallel to the central axis (25) extending longitudinal direction (26) in a latching position (37) in the receiving recess (27) is fixable.
[4]
4. Connector assembly according to claim 3, characterized in that in the receiving recess (27) of the connector receptacle (2) an insert-geelement (38) is arranged, which cooperates with the latching projection (35) of Verdreh¬sicherungselementes (28) and as a latching projection counterpart (36) is used.
[5]
5. Connector assembly according to claim 4, characterized in that the insert element (38) is formed of a plastic material.
[6]
6. Connector assembly according to one of the preceding Ansprü¬che, characterized in that the anti-rotation element (28) is formed from ei¬nem sheet metal forming part.
[7]
7. Connector assembly according to one of the preceding Ansprü¬che, characterized in that the anti-rotation element (28) as a cup (32) with flange (33) is formed.
[8]
8. Connector assembly according to one of the preceding Ansprü¬che, characterized in that the connector receptacle (2) is formed from a sheet metal forming part, wherein the receiving recess (27) is formed by a punched.
[9]
9. Connector assembly according to one of the preceding Ansprüche, characterized in that the receiving recess (27) partially ineiner inner wall (39) or in an end wall (40) of the Steckeraufaufmeme (2) is formed thus the T-shaped groove ( 29) between the inner wall (39) and outer wall (41) of the connector receptacle (2) is formed.
[10]
10. Connector assembly according to one of the preceding Ansprü¬ che, characterized in that the connector receptacle (2) is formed as an integral part of a vehicle muffler (6).

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同族专利:

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CN107407451B|2019-07-30|

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JP2018511011A|2018-04-19|

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RU2017134040A|2019-04-05|

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BR112017017329A2|2018-04-03|

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MX2017010396A|2017-11-28|

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KR20170124582A|2017-11-10|

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RU2017134040A3|2019-08-27|

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US20180038535A1|2018-02-08|

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JP6083869B2|2013-04-25|2017-02-22|株式会社ニフコ|connector|

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AT517085B1|2015-10-07|2016-11-15|Henn Gmbh & Co Kg|Connector for connecting lines for liquid or gaseous media|AT517085B1|2015-10-07|2016-11-15|Henn Gmbh & Co Kg|Connector for connecting lines for liquid or gaseous media|

法律状态:
2017-01-15| HA| Change or addition of new inventor|Inventor name: CHRISTIAN HUBMANN, AT Effective date: 20161130 Inventor name: HARALD HARTMANN, AT Effective date: 20161130 |

优先权:

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申请号 | 申请日 | 专利标题

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ATA50165/2015A|AT516151B1|2015-03-03|2015-03-03|Connector assembly for connecting cables|ATA50165/2015A| AT516151B1|2015-03-03|2015-03-03|Connector assembly for connecting cables|

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RU2017134040A| RU2704586C2|2015-03-03|2016-02-26|Connector assembly for connecting lines|

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JP2017546222A| JP6822971B2|2015-03-03|2016-02-26|Plug-in fitting assembly for connecting pipes|

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BR112017017329-8A| BR112017017329B1|2015-03-03|2016-02-26|Connector module for conduit connection|

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MX2017010396A| MX2017010396A|2015-03-03|2016-02-26|Plug-in connector assembly for the connection of lines.|

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PCT/AT2016/050045| WO2016138548A1|2015-03-03|2016-02-26|Plug-in connector assembly for the connection of lines|

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CN201680013209.9A| CN107407451B|2015-03-03|2016-02-26|Plug-in connector component for connecting line|

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EP16718990.1A| EP3265713B1|2015-03-03|2016-02-26|Plug-in connector assembly for the connection of lines|

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ES16718990T| ES2712523T3|2015-03-03|2016-02-26|Modular plug connector unit for connecting ducts|

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KR1020177028002A| KR20170124582A|2015-03-03|2016-02-26|Plug-in connector assembly for connecting lines|

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US15/555,124| US10436366B2|2015-03-03|2016-02-26|Plug-in connector assembly for the connection of lines|