奥地利专利AT516939A4 Connector for connecting lines for liquid or gaseous media

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专利摘要:
The invention relates to a connector (2) with a connector body (5), which connector body (5) has an annular space (22) between a sleeve-shaped first shell portion (10) and a sleeve-shaped second shell portion (13) of the connector (2) lies. The first skirt portion (10) of the connector body (5) is connected to the second skirt portion (13) at a first end portion (14) by a first end wall portion (15). The jacket sections (10, 13) are open to one another at a second end section (23). At least two passage openings (33) are formed in the first jacket section (10) and in the second jacket section (13), which accommodate a locking element (FIG. 6) are provided. A reinforcing element (7) is inserted in the connector body (5) between the first jacket section (10) and the second jacket section (13), wherein the reinforcing element (7) is arranged at least in the area of one of the passage openings (33).
公开号:AT516939A4
申请号:T50855/2015
申请日:2015-10-07
公开日:2016-10-15
发明作者:Wolfgang Baldreich；Harald Ing Hartmann
申请人:Henn Gmbh & Co Kg；
IPC主号:

专利说明:

The invention relates to a connector for connecting lines for liquid or gaseous media, and a method for the manufacture of such a connector.
From EP 2 360 411 AI a generic connector for a motor vehicle is known. The connector for connecting lines for liquid or gaseous media comprises a sleeve having an insertion opening. In the insertion a nozzle is inserted. Furthermore, the connector and a surrounding the sleeve at least over part of its circumference detent spring, which between a detent position for locking the plugged together with the connector neck and a verras- teten against the sleeve release position in which the locking is released with the nozzle and the Stub is pulled out of the insertion of the sleeve, is adjustable. The detent spring projects at least in its detent position over at least a portion of its longitudinal extent in which it can be latched to the neck, through a passage opening of the Hüise in the surrounding of the Hüise interior. Furthermore, and wherein the detent spring engaged in its latched release position at least one detent position of the detent spring behind a retaining projection of the sleeve in a Haitevertiefung the sleeve. The retaining projection projects in front of the retaining recess in the axial direction of the sleeve.
The connector of EP 2 360 411 AI can be easily damaged when force application in the region of the detent spring.
Object of the present invention was to overcome the disadvantages of the prior art and to provide a device which has he increased security against component failure, and to provide a method for producing such a device.
This object is achieved by a device and a method according to claims 1 and 9.
The device according to the invention is a connector for a motor vehicle, with a connector body, which connector body has an annular space which is between a sleeve-shaped, in cross-section a central longitudinal axis of the connector surrounding the first shell portion and a sleeve-shaped, in cross section the central longitudinal axis surrounding the second shell portion of the connector , The first jacket portion is surrounded by the second jacket portion, and the first jacket portion of the connector body is connected to the second jacket portion at a first end portion by a first end wall portion. The shell portions are open at a second end portion to each other. At least two passage openings are formed in the first jacket section and in the second jacket section, which are provided for receiving a locking element, which locking element is provided for securing the connector relative to a mating connector. In the connector body between the first jacket portion and the second jacket portion, a reinforcing element is inserted, wherein the reinforcing element is arranged at least in the region of one of the passage openings.
An advantage of the inventive design of the connector is that the connector body is reinforced by the reinforcing element particularly in the region of the passage openings for receiving the locking element. Thus, an unwanted widening of the passage openings can be stopped by the reinforcing element. In particular, this can ensure that the connection between the connector and mating connector over the life of the motor vehicle has the highest possible strength and tightness.
Furthermore, it may be expedient that the reinforcing element has at least one recess which corresponds at least partially with one of the Durchtrittsöffnun gene. The advantage here is that the recess of the reinforcing element can reinforce the passage opening in the connector body.
Furthermore, it can be provided that the connector body has four passage openings, which are designed to be penetrated by the locking element, wherein the at least one recess of the reinforcing element is congruent with at least one of the passage openings and thereby a common passage opening is formed. The advantage here is that the common passage opening can be produced in a punching process, wherein the reinforcing element and the connector body are punched together. This ensures that the recess in the reinforcing element and the passage opening in the connector body are congruent. In addition, can be achieved by the common punching that the reinforcing element and the connector body wedged form fit into each other, since a punching rate is generated during the punching process.
Furthermore, it can be provided that the at least one recess of the reinforcing element is formed smaller than the passage opening corresponding thereto. The advantage here is that thereby a support surface can be created and the locking element can rest in the release position on this support surface.
Also advantageous is an embodiment, according to which it can be provided that the reinforcing element is formed as a Flülsensegment. The advantage here is that the reinforcing element can be punched out of a sheet metal strip and can then be converted to the Flülsensegment. As Flülsensegment a sleeve is referred to, which is not formed circumferentially, but which extends only over parts of the circumference. Alternatively to the use of a Flülsensegmentes also a closed flap can be used.
According to a development, it is possible for an outer diameter of the first jacket section to be the same size as an inner diameter of the reinforcing element. The advantage here is that the reinforcing element rests against the first shell portion and thus can stiffen it.
Furthermore, it may be expedient that a bead is formed in the second jacket section, by means of which the reinforcing element is fixed in the radial direction. By the bead, the reinforcing element between the first shell portion and second shell portion can be clamped.
In addition, it may be provided that the connector body is made of a first material and the reinforcing element is made of a second material, wherein the second material has a higher strength than the first material. It is advantageous that for the reinforcing element, a material can be used which has a high strength and which optionally has a low formability. For the connector body, a material can be used, which has a high formability, in order to produce the complex geometry of the connector body can.
In the method for Flerstellen the connector is provided that in a first process step, the connector body is formed and optionally the passage openings are introduced into the connector body; in another Verfahrensschirtt a reinforcing element is preformed; In a further method step, the reinforcing element is inserted axially into the connector body and positioned in the connector body. An advantage of the method according to the invention is that the reinforcing element can be preformed in a separate process step and thus the reinforcing element can be formed independently of the connector body.
Furthermore, it can be provided that in a further method step, the connector body and the reinforcing element are punched together and thereby a common passage opening is produced. This ensures that the recess in the reinforcing element and the passage opening in the connector body are congruent. In addition, it can be achieved by the common punching process, that the reinforcing element and the connector body verke snapped into each other, since a punching rate is generated during the punching process.
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:
Fig. 1 is a perspective view of an embodiment of a plug assembly in a quarter section;
2 shows a cross section of an exemplary embodiment of the connector with a cutting guide in the region of a locking element:
3 is a sectional view of the connector with cut along a central longitudinal axis of the connector:
4 is an exploded view of the connector:
Figure 5 is a perspective view of the connector, wherein the locking element is in a detent position.
6 is a detailed view of the locking element, wherein the locking element is in a detent position.
Figure 7 is a perspective view of the connector, wherein the locking element is in a release position.
Fig. 8 is a detail view of the locking element, wherein the locking element is in a release position.
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 names, wherein the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals or 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.
Fig. 1 shows a perspective view of a connector assembly 1 with a connector 2, which are shown cut in a quarter-section. Furthermore, a mating connector 3 is shown schematically in Fig. 1, which is connectable to the connector assembly 1. The interaction between plug assembly 1 and a mating connector 3 is sufficiently described in AT 509 196 Bl.
Furthermore, a pipe 4 is shown schematically, to which the connector 2 may be coupled. For example, the tube 4 may be a rigid element, such as a plastic tube. In another embodiment, the tube 4 may be formed as a flexible conduit made of a rubber material.
The connector 2 comprises a connector body 5, which is preferably formed as a one-piece forming part, such as a deep-drawn part, in particular of a stainless steel sheet.
The plug assembly 1 is preferably used in a motor vehicle, in particular in a road-bound motor vehicle with internal combustion engine, such as a car or a truck.
Of course, it is also conceivable that the connector assembly 1 is used in another application with internal combustion engine. This can be, for example, the use of the plug assembly 1 in a stationary unit, in a marine engine, in an aircraft engine, in a construction machine, etc.
Specifically, the connector assembly 1 can be used to connect various components of the fresh air supply to the engine. For example, it can be provided that the connector 2 is provided with the corresponding mating connector 3 for connecting two parts in the intake of a turbocharger. Furthermore, it can also be provided, for example, that such a plug-in assembly 1 is inserted in the discharge side of the turbocharger for the connection of two components.
Fig. 2 shows a cross section of the connector 2 wherein the cutting guide has been selected so that a built-in connector 2 locking element 6 for securing the connector 2 and the mating connector 3 zueinean-is apparent.
The locking member 6 is constructed so that it can be easily activated and deactivated, so that the connector 2 and the mating connector 3, if necessary, can be separated from each other or connected to each other. The locking element 6 can be brought into a detent position in which the connector 2 and the mating connector 3 are secured to each other. Furthermore, the locking element 6 can be brought into a release position, in which the mating connector 3 can be inserted into the connector 2 or taken out of this.
As is further apparent from FIG. 2, a reinforcing element 7, which serves to improve the rigidity of the connector body 5, is inserted into the connector body 5. The reinforcing element 7 may well be formed as a sleeve segment as shown in Fig. 2, and therefore have an open view over the circumference open intermediate piece. In a further embodiment, the reinforcing element 7 may be formed as a sleeve and therefore have a closed circumference.
FIG. 3 shows a section through the plug assembly 1 along a central longitudinal axis 8 of the plug connector 2.
As can be clearly seen in FIG. 3, the connector 2 may include, in addition to the connector body 5, a plug seal 9 received in the connector body 5. The plug seal 9 serves to adequately seal the connector in the mated state with the mating connector 3.
As can be seen in FIG. 3, a first jacket section 10, which surrounds the central longitudinal axis 8 of the connector 2 in the manner of a sleeve, is formed on the connector body 5. In other words, the first Manteiabschnitt 10 is a rotationally symmetrical hollow cylinder.
The first jacket section 10 has an inner jacket surface 11 and an outer jacket face 12. The first casing section 10 is surrounded by a second casing section 13 which is likewise rotationally symmetrical with respect to the central longitudinal axis 8. The first jacket section 10 is connected to the second jacket section 13 at a first end section 14 by means of a first end wall section 15. The first end wall portion 15 may be formed variously. In particular, it may be provided that the first end wall portion 15 is formed in the form of a fold, wherein the second shell portion 13 is folded over the first shell portion 10 by about 180 °, whereby the second shell portion 13 is disposed surrounding the first shell portion 10.
Like the first casing section 10, the second casing section 13 also has an inner casing surface 16 and an outer casing surface 17.
The first shell portion 10 is limited by its inner circumferential surface 11 and the outer circumferential surface 12, whereby a wall thickness 18 of the first shell portion 10 results. The second shell portion 13 is also bounded by an inner circumferential surface 16 and an outer circumferential surface 17, resulting in a wall thickness 19 of the second shell portion 13.
The first jacket portion 10 is executed stepped in the illustrated embodiment. It can be provided that connects to the first shell portion 10 on the opposite side of the first end portion 14 of the connector 2, a seal receptacle 20, which is also formed in the connector body 5. In such a seal receptacle 20, a plug seal 9 may be included. Furthermore, it can be provided that the sealing receptacle 20 is followed by a third jacket section 21 which, together with the second jacket section 13, forms an annular space 22 for receiving the tube 4.
The second shell portion 13 and the third shell portion 21 are open at a second end portion 23 of the connector 2 to each other, resulting in a tube receiving side 24 of the connector body 5 results.
It can be provided that the third shell portion 21 in the region of the second end portion 23 has a bevel 25 which is formed on the pipe receiving side 24. Such a chamfer 25 has the advantage that the tube 4 or a sealing element used to seal the tube 4 can be easily inserted into the annular space 22 in the insertion direction 26. In addition, it can also be provided that the second Manteiabschnitt 13 has such a chamfer 27, so that the tube 4 can be easily inserted into the annular space 22. Subsequently, the tube 4 can be pressed with the connector body 5, so that the two components form a unit.
The chamfers 25, 27 can be realized, for example, by crimping with corresponding radii or by widening and are preferably formed during the deep-drawing process.
Preferably, the connector body 5 is produced in a deep-drawing process, wherein all wall thicknesses of the shell portions of the connector body 5 are approximately equal.
As can be seen in the view in FIG. 3, it may also be expedient for the seal receptacle 20 to have an end wall 28 which adjoins the third jacket section 21. By the end wall 28 may be formed in particular a receiving trough for the plug seal 9.
The first jacket portion 10 has an outer diameter 30 and an axial extent 29. An inner diameter 31 of the reinforcing element 7 is preferably selected to be approximately the same size as the outer diameter 30 of the first jacket section 10.
In the region of the first jacket section 10, the connector 2 has a receiving space 32. The receiving space 32 is surrounded by the first shell portion 10 and serves to receive a portion of the mating connector. 3
The connector body 5 has a plurality of circumferentially spaced-apart through openings 33, which are likewise arranged in the region of the first jacket section 10. In the locking position of the locking element 6, which occupies this in the inserted and latched state, the locking element 6 protrudes through the respective passage opening 33 in the receiving space 32. In these sections, the locking element 6 cooperates with a locking surface of a locking shoulder of the mating connector 3.
From Fig. 3 is further seen that the reinforcing element 7 has a recess 34 which corresponds to one of the passage openings 33 and thus the locking element 6 can be performed by the reinforcing element 7. In particular, it is conceivable that a first type of passage openings 33 'and a second type of passage openings 33 "are formed. Correspondingly, a first type of recesses 34 'and a second type of recesses 34 "may be formed.
In particular, it can be provided that the recess 34 "of the reinforcing element 7 and the passage opening 33" of the connector body 5 at least partially have the same outer contour or are arranged congruent to each other.
In particular, the passage opening 33 'and the recess 34' can be formed completely congruent, resulting in a common passage opening 35.
As can be seen from a synopsis of FIGS. 2 and 3, it can further be provided that in the second shell section 13 of the connector body 5, one or more beads 36 are introduced, by means of which the reinforcing element 7 are clamped in the intermediate space between the first shell section 10 and second shell section 13 can. By the beads 36, the reinforcing element 7 can be fixed in the radial direction or optionally held by a radial clamping in the axial direction in position. The beads 36 may additionally contribute to increasing the stability of the second shell portion 13.
Fig. 4 shows an exploded view of the individual components of the connector 2, in turn, the same reference numerals or component names are used as in the previous figures 1 to 3 for the same parts. To avoid unnecessary repetition, reference is made to the detailed description in the preceding figures 1 to 3 or reference.
In Fig. 4 is clearly visible that the locking element 6, for example, four locking portions 37 may have, which are formed to penetrate through the passage openings 33 of the connector body 5. The latching areas 37 are therefore designed as inwardly standing V-shaped elements. As further apparent from FIG. 4, the plug connector 2 furthermore comprises holding elements 38, which are inserted into a holding element receptacle 39 and serve to secure the arresting element 6.
The reinforcing element 7 is already shown prefabricated in FIG. 4, wherein it is pre-bent and the recesses 34 are already introduced into the reinforcing element 7. In particular, it can be seen that the reinforcing element 7 may be formed as a sleeve segment. Furthermore, it can be seen that it can be provided that, for example, the two recesses 34 "are slot-shaped. The two recesses 34 'may have the exact same outer contour as the corresponding passage openings 33'.
In another embodiment, not shown, it may also be provided that the recesses 34 are not or only partially incorporated into the prefabricated reinforcing element 7 and that these are formed only when the reinforcing element 7 is inserted into the connector body 5. In this case, the reinforcing element 7 can be punched together with the connector body 5 in the inserted state.
In order to achieve a stiffening of the connector body 5 by the reinforcing element 7, it can be provided that the reinforcing element 7 has a higher strength than the connector body 5. Since the reinforcing element 7 does not have to be reshaped as much as the connector body 5 can be provided, that the connector body 5 is made of a first material and the reinforcing element 7 is made of a second material, wherein the second material has a lower formability than the first material.
In the following, the possible assembly of the connector 2 will be described. In a first method step, the connector body 5 is manufactured by forming, in particular by deep drawing, from a flat sheet metal material. In this case, the recesses 34 and 39 arranged in the circumference of the connector body 5 can be punched during the deep-drawing process.
In a further method step, the reinforcing element 7 can also be brought into its shape by forming.
Furthermore, it can be provided that at least one of the passage openings 33 or the corresponding recess 34 are produced only in a subsequent punching process, when the reinforcing element 7 is already inserted in the connector body 5. As a result, the recess 34 and the passage opening 33 can be produced in the form of a common passage opening 35, wherein the reinforcing element 7 and the connector body 5 are keyed into one another in a form-fitting manner by the punching process, thereby improving the axial positioning of the reinforcement element 7.
In an alternative variant, it can be provided that the recesses 34 are introduced into the reinforcing element 7 before they are inserted into the connector body 5.
In a further method step, the reinforcing element 7 can be inserted into the connector body 5 in insertion direction 26 and inserted therein. In this case, it is conceivable for the reinforcing element 7 to be inserted into a folding area 40, which is located in the connector body 5 in the region of the end face.
Wall section 15 is formed. Through this fold region 40 may be formed radially a narrow slit, in which the reinforcing element 7 can be inserted. In particular, it can be provided that the reinforcing element 7 is clamped in the folding area 40.
In addition, the beads 36 can serve for the axial and radial positioning and fixing of the reinforcing element 7. These can already be introduced in advance into the connector body. In an alternative manufacturing variant, the beads 36 can be introduced into the connector body 5 even after the insertion of the reinforcing element 7 in order to be able to clamp the reinforcing element 7.
In a further method step, the locking element 6 can be inserted into the connector body 5 and then the retaining elements 38 are used to secure the locking element 6 in the connector body 5.
The locking element 6 has a holding portion 41 on which it can be grasped in order to be able to be inserted into the connector body 5 and to be moved between the locking position and the release position.
Fig. 5 shows a perspective view of the connector 2, wherein the locking element 6 is in the locked position.
Fig. 6 shows a detailed view of the locking element 6 which is located in the detent position.
Fig. 7 shows a perspective view of the connector 2, wherein the locking element 6 is in the release position.
Fig. 8 shows a detailed view of the locking element 6 which is in the release position.
In the figures 5 to 8 further and possibly independent embodiment of the connector 2 is shown, again for like parts, the same reference numerals or component names as in the preceding
Figures 1 to 4 are used. In order to avoid unnecessary repetition, reference is made to the detailed description in the preceding Figures 1 to 4 or reference.
Particularly well, the locking position of the locking element 6 in a synopsis of Fig. 5 and 6 and the release position of the locking element 6 in a synopsis of Figs. 7 and 8 can be seen. When the locking element 6 is in its detent position, the latching regions 37 protrude into the receiving space 32 and the mating connector 3 is secured axially relative to the connector 2. When the locking element 6 is in its release position, the latching regions 37 do not project into the receiving space 32 and the mating connector 3 is axially displaceable relative to the plug connector 2.
As can be seen in FIG. 6, provision can be made for the recess 34 to be slot-shaped in the reinforcing element 7, wherein the slot has approximately a width which corresponds to the diameter of the locking element 6. As a result, the locking element 6 can be fixed axially.
If you now on the holding portion 41 in the radial direction away from the longitudinal axis of the connector 2 attracts to the locking element 6, so the locking portions 37 are pulled out of the receiving space 32 due to the geometry of the locking element 6. In particular, the locking element 6 is moved so far radially outward until it is brought into the release position corresponding to FIGS. 7 and 8.
Shortly before reaching the release position, a guide pin 42 of the locking element 6 strikes the retaining element 38 and is thereby deflected axially so that the locking element 6 moves into the release position. In particular, it can be provided that in the holding element 38, a chamfer 43 is formed through which an axial movement is introduced into the locking element 6 in a radial train on the holding portion 41. After successful axial displacement, the locking element 6 can be released, wherein the guide pin 42 on the connector body 5 and, as shown particularly well in Fig. 8 lend, rests on the reinforcing element 7 and thus remains in the release position, wherein the locking element 6 is biased.
In order to move the locking element 6 from the release position back into the locking position, the locking element 6 can be moved slightly axially and by the applied bias of the locking element 6 moves this independently back into the locking position as soon as it dives into the recesses 34'des Arretierungselementes 6 can.
The embodiments show possible embodiments, it being noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments are mutually possible and this variation possibility due to the teaching of technical action by representational invention in Can the expert working in this technical field.
The scope of protection is determined by the claims. However, the description and drawings are to be considered to interpret the claims. Individual features or combinations of features from the illustrated and described different embodiments may represent for themselves inventive solutions. The task underlying the independent inventive solutions can be taken from the description. All statements of value ranges in the present description should be understood to include any and all sub-ranges thereof, e.g. is the statement 1 to 10 to be understood that all sub-areas, starting from the lower limit 1 and the upper limit 10 are included, ie. all sub-areas 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.
For the sake of order, it should finally be pointed out that for a better understanding of the construction, elements have been shown partially unevenly and / or enlarged and / or reduced in size.
LIST OF REFERENCE NUMERALS 1 plug assembly 25 bevel 2 plug connector 26 insertion direction 3 mating connector 27 bevel 4 tube 28 end wall sealing seal 5 connector body 6 locking element 29 axial extension first 7 reinforcing element shell section 8 longitudinal axis of the connector 30 outer diameter first shell section 9 plug seal 31 inner diameter 10 first shell section 32 receiving space 11 internal lateral surface 33 passage opening 12 external lateral surface 34 recess 13 second jacket section 35 common passage opening end first connection plug-in connection 36 bead 15 end wall section 37 latching area 16 inside jacket surface 38 holding element 17 outside jacket surface 39 holding element holder 18 wall thickness first jacket cut 40 fold area 41 holding area 19 Wall thickness second jacket 42 Guide pin section 43 Bevel 20 Seal holder Plug connector 21 Third jacket cut cut 22 annulus 23 second end section connector 24 tube receiving side

权利要求:
Claims (11)
[1]
claims
1. Connector (2) for connecting lines for liquid or gaseous media, comprising a connector body (5), which connector body (5) has an annular space (22) between a sleeve-shaped, in cross-section a central longitudinal axis (8) of the connector (2) surrounding the first shell portion (10) and a sleeve-shaped, in cross-section the central longitudinal axis (8) surrounding the second shell portion (13) of the connector (2), wherein the first shell portion (10) surrounded by the second shell portion (13) and the first skirt portion (10) of the connector body (5) is connected to the second skirt portion (13) at a first end portion (14) by a first end wall portion (15) and the skirt portions (10, 13) are joined at a second end portion (23 ) are open to each other, wherein in the first shell portion (10) and in the second shell portion (13) at least two passage openings (33) are formed, which for receiving a lock are provided, which locking element (6) for securing the connector (2) relative to a mating connector (3) is provided, characterized in that in the connector body (5) between the first shell portion (10) and the second shell portion ( 13) a reinforcing element (7) is inserted.
[2]
2. Connector according to claim 1, characterized in that the reinforcing element (7) is arranged at least in the region of one of the passage openings (33).
[3]
3. Connector according to claim 1 or 2, characterized in that the reinforcing element (7) has at least one recess (34) which at least partially with one of the passage openings (33) corresponds.
[4]
4. Connector according to claim 3, characterized in that the connector body (5) has four passage openings (33) which are designed to be penetrated by the locking element (6), wherein the at least one recess (34 ') of the reinforcing element (7) with at least one of the passage openings (33 ') is congruent and thereby a common passage opening (35) is formed.
[5]
5. Connector according to claim 3 or 4, characterized in that the at least one recess (34) of the reinforcing element (7) is smaller than the corresponding opening corresponding thereto (33).
[6]
6. Connector according to one of the preceding claims, characterized in that the reinforcing element (7) is designed as a sleeve segment.
[7]
7. Connector according to one of the preceding claims, characterized in that an outer diameter (30) of the first shell portion (10) is equal to an inner diameter (31) of the reinforcing element (7).
[8]
8. Connector according to one of the preceding claims, characterized in that in the second jacket portion (13) at least one bead (36) is formed, by means of which the reinforcing element (7) is fixed in the radial direction.
[9]
9. Connector according to one of the preceding claims, characterized in that the connector body (5) made of a first material and the reinforcing element (7) is made of a second material, wherein the second material has a higher strength than the first material.
[10]
10. A method for producing a connector according to one of the preceding claims, characterized in that in a first method step, the connector body (5) is formed and optionally the passage openings (33) are introduced into the connector body (5); in another Verfahrensschirtt a reinforcing element (7) is preformed; in a further method step, the reinforcing element (7) is inserted axially into the connector body (5) and positioned in the connector body (5).
[11]
11. The method according to claim 10, characterized in that in a further method step, the connector body (5) and the reinforcing element (7) are punched together and thereby a common passage opening (35) is produced.

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引用文献:

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50855/2015A|AT516939B1|2015-10-07|2015-10-07|Connector for connecting lines for liquid or gaseous media|ATA50855/2015A| AT516939B1|2015-10-07|2015-10-07|Connector for connecting lines for liquid or gaseous media|

BR112018005514-0A| BR112018005514B1|2015-10-07|2016-10-03|CONNECTOR FOR CONNECTING PIPELINES FOR LIQUID OR GASEOUS MEDIA AND PROCESS FOR THE PRODUCTION OF A CONNECTOR|

EP16777971.9A| EP3359862B1|2015-10-07|2016-10-03|Connector for connecting conduits for liquid or gaseous media|

US15/766,502| US10927990B2|2015-10-07|2016-10-03|Connector for connecting conduits for liquid or gaseous media|

ES16777971T| ES2805648T3|2015-10-07|2016-10-03|Plug connector for connection of lines for liquid or gas media|

KR1020187012888A| KR20180099630A|2015-10-07|2016-10-03|Connectors for connecting conduits for liquid or gas media|

MX2018002810A| MX2018002810A|2015-10-07|2016-10-03|Connector for connecting conduits for liquid or gaseous media.|

JP2018518461A| JP6823058B2|2015-10-07|2016-10-03|Plug connector for connecting conduits for liquid or gaseous media|

PCT/EP2016/073540| WO2017060184A1|2015-10-07|2016-10-03|Connector for connecting conduits for liquid or gaseous media|

RU2018115903A| RU2718840C2|2015-10-07|2016-10-03|Plug connector for connection of pipelines for liquid or gaseous media|

CN201680056382.7A| CN108139004B|2015-10-07|2016-10-03|For connecting the plug-in connector for being used for the pipeline of liquid or gaseous medium|

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