Plug part and socket part for releasably connecting a pipe bend of a gas-cooled welding torch with a

专利摘要:
The invention relates to a plug part (21) for releasably connecting a pipe bend (19) of a gas-cooled welding torch (7) with a bushing part (34) arranged on a hose package (20), with a cylindrical pipe element (22) with a flange (25) and an axially extending channel (23) for a welding wire (9) and a protective gas (5), and a union nut (24) rotatably mounted on the tube member (22) having an internal thread for connection to a corresponding male thread on the female part (34) and such female part (34). To produce an optimum connection between pipe bend (19) and hose package (20), a chamfer (32) is arranged on the flange (25) of the pipe element (22) of the plug part (21) and has the end piece (35) of the socket part (34) at least an axial slot (39).
公开号:AT512729A1
申请号:T50114/2012
申请日:2012-03-30
公开日:2013-10-15
发明作者:Klaus Oberndorfer；Daniel Platzer；Wolfgang Attwenger
申请人:Fronius Int Gmbh；
IPC主号:

专利说明:

: 02-04-2012 ιΕ0ί4.ϊ h Ο 2012/50114 1
The invention relates to a plug part for releasably connecting a pipe bend of a gas-cooled welding torch with a hose assembly at best arranged with the interposition of a burner housing socket part, with a cylindrical tube member having an axially extending channel for a welding wire and a protective gas, and a rotatably arranged on the pipe element union nut an internal thread for connection to a corresponding external thread on the female part.
Furthermore, the invention relates to a female part for releasably connecting a hose assembly with a arranged on a pipe bend of a gas-cooled welding torch plug part, with an at least partially cylindrical end piece with an axially extending channel for a welding wire and a protective gas, and with an external thread for connection to a corresponding Internal thread of a union nut of the plug part.
Finally, the invention relates to a connecting device for releasably connecting a pipe bend of a gas-cooled welding torch with a hose package, wherein the pipe bend has an above-mentioned connector part and the hose package has an above-mentioned female part. Usually, pipe bends are releasably connected to the hose package or the burner housing or torch handle of a welding torch. This allows the welder on the one hand choose from differently shaped pipe bends and use the most appropriate for the implementation of the welding process and on the other hand make an exchange of the pipe bend, if it is damaged or dirty. Conventional connections between pipe bend and hose package or burner housing are made with appropriate threads or quick fasteners such. Bayonet locks made. In addition to the necessary mechanical stability of the connection between pipe bend and hose package or burner handle or burner housing, the connection should also ensure that essentially no shielding gas leaks through leaks. Since electrical energy is also transmitted via the connection device, that is to say the plug part and socket part, the connection device should also ensure the corresponding electrical line. For welding, it is advantageous if the pipe bend is designed to be rotatable at least within a certain range, so that the welding torch can always be held at the optimum angle to the intended weld seam.
Connecting devices between pipe bend and hose package or burner housing of a welding torch known type often meet only part of the above requirements and are more complicated to handle.
The object of the present invention is therefore to provide a plug part and a socket part of a connecting device for releasably connecting a pipe bend of a gas-cooled welding torch with a hose package, through which the above requirements can be met. The plug part and socket part of such a connection device should be as simple and inexpensive to produce. In addition, at least one angular position or reference position of the pipe bend relative to the hose package or burner housing should be easy to set.
The object of the invention is achieved by an above-mentioned connector part, wherein a flange with a chamfer is arranged on the pipe element. Due to the chamfer on the flange of the tubular element of the plug part, an optimal current transfer between the plug part and the associated socket part is achieved. By rotatably mounted on the pipe element union nut of the plug part is optimally pressed against the associated socket part and made an optimal mechanical and electrical connection. Such a chamfer on the flange of the tubular element can be particularly easy and inexpensive to produce.
If at least one receiving opening for receiving a pin-shaped element of the bushing part for fixing at least one angular position of the pipe bend is disposed on the flange of the tubular element, a reference layer can be made in at least one angular position of the pipe bend, so to speak. From this at least one reference position, the welder can move the pipe bend as needed in a desired different angular position. 3 02-04-2012
When providing a plurality of receiving openings for a pin-shaped element of the female part a plurality of reference positions can be set at certain angular intervals, which the welder can select depending on the welding process. A corresponding marking on the plug part and possibly socket part, for example, with corresponding notches or color markings can provide relief in this respect.
The object of the invention is also achieved by an above-mentioned plug part, wherein at least one receiving opening for receiving a pin-shaped element of the socket part for fixing at least one angular position of the pipe bend is arranged on the flange of the tubular element. For the achievable advantages, reference is made to the above paragraph.
The receiving opening is advantageously formed by a bore. A bore, which need not be forced to be continuous, but may also be formed, for example in the form of a blind hole, is particularly easy and quick to produce.
If the union nut projects beyond the end of the tubular element, and a stop element for preventing axial displacement of the union nut behind the end of the tubular element is provided, the tubular element can be protected against damage or deformation.
According to a further feature of the invention, at least one sealing ring is arranged on the tubular element. By such a sealing ring made of suitable elastic material, e.g. Silicone can be formed, it is prevented that protective gas exiting from the axially extending channel in the region of the connection between the plug part and socket part.
Between the union nut and the flange of the tubular element may be arranged a sliding ring of electrically conductive material. Through such a sliding ring made of electrically conductive material, a change in the angular position of the pipe bend relative to the burner handle or hose package can be easily made without the union nut must be completely ge () 2404-2012 ίΕ0Ϊ4.1 | l Ο 2012/50114 4 opens. The electrically conductive material ensures that the power transmission from the hose assembly to the pipe bend and subsequently to the contact nozzle is ensured unhindered.
The union nut has in the direction of the free end of the pipe bend preferably smaller diameter, and may be formed in particular frusto-conical. Such a form of training facilitates handling of the union nut and prevents or reduces corresponding edges between the union nut and the pipe bend.
The union nut may have a plastic sheath. Such a plastic sheath of suitable material and in an appropriate design, for example, with axial grooves, also facilitates handling and provides both electrical and thermal insulation to the underlying plug part of the welding torch ago.
The object of the invention is also achieved by an above-mentioned socket part, wherein the end piece has at least one axial slot. By arranging at least one such axial slot, an optimum connection in the form of a spreading forceps or collet can be produced. By tightening the nut of the associated connector part, the resulting jaws of the tail of the female part are pressed in accordance with the cylindrical tube member of the male part and cause a dense and optimally conductive connection between the female part and the male part. Such a trained female part is particularly fast and inexpensive to produce.
Preferably, a pin-shaped element which is resiliently mounted in the direction of the male part to be connected is provided on the female part, which is receivable for fixing at least one angular position of the pipe bend of at least one receiving opening in the plug part. As a result, a kind of latching connection between the socket part and plug part in the at least one predetermined angular position or reference position can be produced.
If, as described above, a plurality of receiving openings in different 5 angular positions in the plug part are arranged, the pin-shaped element can engage the socket part in these different angular positions, whereby certain positions of the pipe bend can be marked.
The object of the invention is also achieved by an above-mentioned socket part, in which a pin-shaped element resiliently mounted in the direction of the plug part to be connected is provided, which can be received in the plug part for fixing at least one angular position of the pipe bend of at least one receiving opening. This allows the welder to take at least a reference position of the pipe bend to the hose package or burner housing particularly easy. For the achievable advantages reference is made to the above paragraph.
The pin-shaped element preferably has a substantially hemispherical end. By such a design of the end of the pin-shaped element, this can be easily displaced upon rotation of the pipe bend relative to the socket part and a different position of the be taken with the pipe bend.
At the end of a bevel can be arranged with a chamfer on the flange of a cylindrical tubular element of the connector part to be connected corresponding chamfer. Such a chamfer increases the contact area with the associated plug part and thus improves the electrical transition.
It when the tail of the female part has two crosswise arranged slots is particularly advantageous. This creates a kind of spreading pliers or collets with four movable jaws, which are pressed together by the union nut of the associated plug part. This results in an optimal connection of the plug part with the socket part and an optimal electrical contact of the electrically conductive components.
The object of the invention is also achieved by a connecting device for releasably connecting a pipe bend of a gas-cooled welding torch with a hose package, wherein the pipe bend a plug part with the above features and the hose package has a female part with the above features. For the achievable advantages reference is made to the above description of the plug part and socket part.
The plug part is connected to the pipe bend, preferably soldered. Such a compound can be made particularly quickly and easily. Alternatively, the compound can also be made by pressing or gluing with suitable adhesives.
The female part is connected to the end of a hose package possibly with the interposition of a burner housing. The connection of the female part with the end of the hose package or the burner housing can also be done by various ways, in particular by gluing.
If the pipe bend with respect to the hose package is rotatable by 360 °, wherein at least one angular position of the pipe bend is determined by the at least one receiving opening in the plug part and the pin-shaped element in the socket part, a special flexibility for all welding methods can be achieved.
In order to prevent a pipe bend of a gas-cooled welding torch can be connected to the socket part on the burner housing or hose package for a water-cooled welding torch, the dimensions of the plug parts and socket parts of gas-cooled welding torches and water-cooled welding torches are preferably designed differently. Such a different design can be achieved for example in the form of different diameter of the union nut and the like.
The present invention will be explained in more detail with reference to the accompanying schematic drawings. Show:
Fig. 1 is a schematic representation of a welding device; Fig. 2 shows a pipe bend with a plug part and associated
Female part in a separate state in a partially cut representation; 7 7 ι ΙΙΜΙβΜ
3 shows the pipe bend with plug part and socket part of Figure 2 in the connected state in a partially sectioned view ..;
FIG. 4 shows the pipe bend with plug part and socket part according to FIG. 2 in a connected state in a partially cutaway view; FIG.
5 shows an end view of the plug part connected to the pipe bend according to FIGS. 2 to 4;
6 shows an end view of the socket part according to FIGS. 2 to 4; and
Fig. 7 is a side view of the socket part according to FIGS. 2 to 4 in uncut representation.
In Fig. 1 is a welding device 1 for a variety of processes or procedures, such. MIG / MAG, TIG / TIG, electrode,
Double wire / tandem welding, plasma or soldering, etc. shown.
The welding device 1 comprises a power source 2 with a power unit 3 arranged therein, a control device 4 and other components and lines, not shown, such as a switching element, control valves, etc. The control device 4 is connected, for example, to a control valve which is located in a supply line for a protective gas 5, such as CO 2, helium or argon and the like., Between a gas storage 6 and a welding torch 7. is arranged.
In addition, a device 8 for conveying a welding wire 9 from a supply drum 10 or a wire roller into the area of the welding torch 7 can be actuated via the control device 4, as is customary for MIG / MAG welding, for example. Of course, the conveyor device 8 in the welding device 1, in particular in the housing 11 of the power source 2, integrated and not, as shown in Fig. 1, be positioned as an additional device on a carriage 12. The conveyor 8 for the welding wire 9 can also be placed directly on the welding device 1, wherein the housing 11 of the power source 2 is formed at the top for receiving the conveyor 8, and the carriage 12 can be omitted. 8 8 2012/50114 irited: 02-04-2012
The welding wire 9 can also be supplied to the processing station outside the welding torch 7 by a conveying device 8, wherein a non-consumable electrode is preferably arranged in the welding torch 7, as is usual in TIG / TIG welding.
The current for constructing an arc 13, in particular a working arc, between the electrode or the welding wire 9 and a workpiece 14 formed from one or more parts is in particular via a welding line (not shown) from the power source 3 of the power source 2, the welding torch 7 the electrode or the welding wire 9, respectively. The workpiece 14 to be welded is connected via a further welding line (not shown) for the further potential, in particular a
Ground cable, connected to the power source 2, whereby via the arc 13 and a formed plasma jet, a circuit for a process can be constructed. When using a torch with internal arc 13, as may be the case with a plasma torch, the two welding lines are led to the burner, so that in the burner a corresponding circuit can be constructed (not shown).
For cooling the welding torch 7, this is connected via a cooling device 15 with the interposition of any components, such as a flow monitor, with a liquid container, in particular a water tank 16 with a level indicator 17. When starting the welding torch 7, the cooling device 15, in particular a liquid pump used for the liquid arranged in the water tank 16, is started, whereby a cooling of the welding torch 7 is effected. As shown in the illustrated embodiment, the cooling device 15 is positioned on the carriage 12, on which then the power source 2 is placed. The individual components of the welding device 1, that is, the current source 2, the wire feed device 8 and the cooling device 15, are designed such that they have corresponding projections or recesses, so that they can be safely stacked on each other or placed on each other.
The welding device 1, in particular the current source 2, has ii0lllll4.i WSSSSSm. 9 further includes an input and / or output device 18, via which the most varied welding parameters, operating modes or welding programs of the welding device 1 can be set or called up and displayed. The welding parameters, operating modes or welding programs set via the input and / or output device 18 are forwarded to the control device 4, and then the individual components of the welding device 1 are controlled or corresponding setpoint values for the control or regulation are specified by the latter.
In the illustrated embodiment, the welding torch 7, comprising a pipe bend 19 and possibly a burner housing 1 'via a hose package 20 with the welding device 1 is connected. In the hose package 20, the individual lines, such as the supply line, lines for the welding wire 9, the protective gas 5, the cooling circuit, the data transmission, etc., arranged by the welding device 1 to the welding torch 7, whereas the ground cable preferably separately on the Power source 2 is connected. The hose package 20 is preferably connected via a coupling device, not shown, to the power source 2 or the conveyor 8, whereas the individual lines are fastened in the hose assembly 20 on or in the welding torch 7. In order for a corresponding strain relief of the hose assembly 20 is ensured, the hose package 20 may be connected via a strain relief device to the housing 11 of the power source 2 or the conveyor device 8 (not shown). In order to enable an exchange of the pipe bend 19 of the welding torch 7, this is connected via a corresponding connection device with the hose package 20 or a burner housing 7 ', which is attached to the hose package 20. The connecting device includes a connector part 21 explained in greater detail with reference to FIGS. 2 to 7, which is connected to the pipe bend 19 of the welding torch 7 and a socket part 34 which is connected to the hose package 20 or to a burner housing 7 'connected to the hose package 20.
In principle, for the different welding methods or welding devices 1, such as, for example, TIG devices, MIG / MAG devices or plasma devices, not all of the above-mentioned: 02-Ö4 2bl2 io
Components used or used. If the welding torch 7 is designed as a gas-cooled welding torch 7, the cooling device 15 can also be omitted. The welding device 1 is formed at least by the power source 2, the conveying device 8 and possibly the cooling device 15, wherein these components can also be arranged in a common housing 11. There may be other parts or components, such as a grinding contactor on the wire feeder 8 or an option carrier on a holding device for the gas storage 6, etc., are arranged.
The embodiment of a welding device 1 shown in FIG. 1 represents only one of many possibilities. In particular, the welding devices 1 can be used with regard to the supply of the welding wire 9, the length of the hose package 20, the type, position and number of conveying devices 8 for the welding wire 9, the presence of a wire buffer (not shown) and much more.
Fig. 2 shows a pipe bend 19 with a plug part 21 and associated socket part 34 in a separate state in a partially sectioned representation. The plug part 21 is connected to the pipe bend 19 of the welding torch 7, preferably soldered. The plug part 21 comprises a cylindrical tube element 22 with an axially extending channel 23 for a welding wire 9 and a protective gas 5 (not shown). On the cylindrical tube member 22 of the male part 21, a union nut 24 is rotatably arranged, which union nut 24 has an internal thread which can be screwed onto a corresponding external thread on an at least partially cylindrical end piece 35 of the associated female part 34. In order to protect the end 27 of the tubular element 22 from deformation, it is advantageous if the union nut 24 projects beyond the end 27 of the tubular element 22 and a stop element 28 is provided which prevents axial displacement of the union nut 24 behind the end 27 of the tubular element 22. The possibility is not realized in the illustrated embodiment. The plug part 21 has a flange 25, on which a chamfer 32 is arranged, which, when the plug part 21 is connected to the associated socket part 34, has a correspondingly formed 02-04-201¾ | Ε0ΐ4.ί Ei Q 2012/50114 11
Fase 45 converges on the socket part 34. By the chamfer 32 on the plug part 21 and chamfer 45 on the female part 34 an optimal electrical contact is ensured. At least one receiving opening 26 can be provided on the flange 25 of the plug part 21, into which receiving opening 26 a correspondingly shaped pin-shaped element 36 of the socket part 34 can be accommodated. If the position of the pin-shaped element 36 of the socket part 34 and the receiving opening 26 on the plug part 21 match, a certain angular position of the pipe bend 19 is determined.
When arranging a plurality of receiving openings 26, a plurality of angular positions of the pipe bend 19 can be set. The receiving opening 26 is formed in the simplest case by a bore. In order to prevent protective gas 5, which is guided through the axially extending channel 23 of the plug part 21, emerging in the region of the connection, a sealing ring 30 may be arranged on the tube element 22.
Between the union nut 24 and the flange 25 of the tubular element 22 may be arranged a sliding ring 31 made of electrically conductive material. This slip ring 31 facilitates the rotation of the
Pipe bend 19 with loosened union nut 24th
The union nut 24 may have in the direction of the free end of the pipe bend 19 in the region of the contact nozzle of decreasing diameter and be formed substantially frusto-conical. This facilitates handling and prevents the presence of an excessive gradation between the union nut 24 and pipe bend 19. Preferably, the union nut 24 has a KunstStuffUmhüllung 33 through which a thermal and electrical insulation is produced.
The plug part 21 belonging to the socket part 34 has an at least partially cylindrical end piece 35 and an axially extending channel 37 for the welding wire 9 and the gas 5 (not shown). At the end piece 35, an external thread for connection to a corresponding internal thread of the union nut 24 of the connector part 21 is arranged. According to the invention, the end piece 35 has at least one axial slot 39, preferably two crosswise arranged axial slots 39 (see FIG. 6). As a result, a kind of spreading pliers or collet is formed, 02-04 ^ 2012 for -1 'ίΐΐ2012 / 50114 12 by the socket part 34 and its end piece 35 is divided into four jaws, which when tightening the nut 24 of the male part 21 against the cylindrical Tube member 22 of the male part 21 are pressed. The result is a correspondingly good electrical and mechanical connection and optimum tightness of the channels 23, 37 of the plug part 21 and female part 34. On the front side of the end piece 35 of the female part 34 may be a spring-mounted pin-shaped element 36, which is at least one fixing Angular position or reference position of the pipe bend 19 can protrude into at least one receiving opening 26 in the plug part 21. The pin-shaped element 36 preferably has a substantially hemispherical end 38, so that it can easily be deflected out of the receiving opening 26 when the pipe bend 19 is rotated.
The illustrated female part 34 of the connecting device is connected to a hose package 20 (not shown) or a burner housing 7 'or burner handle of the welding torch 7. For this purpose, a corresponding connecting element 40, for example a screw connection, is provided on the socket part 34.
To be able to offer the welder optimal flexibility, the pipe bend 19 of the welding torch 7 is preferably rotatable through 360 °. For the purpose of twisting the union nut 24 is easily released, so that the possible pin-shaped element 36 can be deflected out of the receiving opening 26 and can be rotated in the desired position. Thereafter, the union nut 24 is tightened again, so that an optimal connection between the plug part 21 and the socket part 34 is created.
In Fig. 3, the pipe bend 19 is shown partially cut with plug part 21 and socket part 34 of FIG. 2 in the connected state. In the illustrated position, the pipe bend 19 is in the predetermined angular position or reference position in which the pin-shaped element 36 projects into the receiving opening 26.
Fig. 4 shows the pipe bend 19 with plug part 21 and socket part 34 of FIG. 2 in the connected state in partially geschnitte- 13 13 .1: 02-04-2012 ner representation. In this figure, a connected to the socket 34 hose package 20 is indicated. The union nut 24 or its plastic envelope 33 may be provided with axially extending grooves or the like. To facilitate the handling of the union nut 24.
From the front view of the connected to the pipe bend 19 plug part 21 of FIG. 5, the possible receiving opening 26 on the plug part 21 can be seen. As already mentioned, a plurality of receiving openings 26 can also be arranged on the plug part 21 in order to produce a plurality of reference positions for the pipe bend 19.
Fig. 6 shows an end view of the socket part 34 according to FIGS. 2 to 4 from which the slots 39 according to the invention in the end piece 35 of the socket part 34 can be seen. Also, the spring-mounted pin-shaped element 36, which may be provided in the end piece 35 is shown.
Finally, Fig. 7 shows a side view of the socket part 34 according to FIGS. 2 to 4 in uncut representation. Such a constructed female part 34 can be relatively easily and inexpensively manufactured and provides an optimal connection with the associated plug part 21 in the connecting device for releasably connecting a pipe bend 19 of a gas-cooled welding torch 7 with a hose package or a burner housing.
In order to prevent unsuitable pipe bends 19 from being able to be connected to the socket part 34 of the connecting device, it is advantageous if the dimensions of the connecting device, for example in gas-cooled welding torches 7 and water-cooled welding torches, are chosen differently. Thus it can be prevented that a pipe bend 19 is connected for a gas-cooled welding torch 7 with a hose package for a water-cooled welding torch and vice versa.

权利要求:
Claims (19)
[1]
14 [lÖ20l2 & 0114] Claims: 1. Plug part (21) for releasably connecting a pipe bend (19) of a gas-cooled welding torch (7) with a bushing part (34) arranged on a hose package (20) at best with the interposition of a burner housing (7 '). with a cylindrical tubular element (22) with an axially extending channel (23) for a welding wire (9) and a protective gas (5), and a union nut (24) rotatably mounted on the tubular element (22) with an internal thread for connection to a corresponding external thread on the socket part (34), characterized in that a flange (25) with a chamfer (32) is arranged on the tube element (22).
[2]
2. plug part (21) according to claim 1, characterized in that the flange (25) of the tubular element (22) at least one receiving opening (26) for receiving a pin-shaped element (36) of the socket part (34) for fixing at least one angular position of the pipe bend (19) is arranged.
[3]
3. Plug part (21) for detachable connection of a pipe bend (19) of a gas-cooled welding torch (7) with a hose assembly (20) at most with the interposition of a burner housing (7 ') arranged bushing part (34), with a cylindrical tubular element (22) with an axially extending channel (23) for a welding wire (9) and a protective gas (5), and a union nut (24) rotatably mounted on the tubular element (22) with an internal thread for connection to a corresponding male thread on the female part (34) characterized in that at least one receiving opening (26) for receiving a pin-shaped element (36) of the socket part (34) for fixing at least one angular position of the pipe bend (19) is arranged on the flange (25) of the tubular element (22).
[4]
4. plug part (21) according to claim 2 or 3, characterized in that the receiving opening (26) is formed by a bore.
[5]
5. plug part (21) according to one of claims 1 to 4, characterized in that the union nut (24) the end (27) of Ö2-Ö4i2Ö1j [E014.1 [10 $ 201 # 50Ϊ14] and a stop element (28) for preventing axial displacement of the union nut (24) behind the end (27) of the tubular element (22) is provided.
[6]
6. plug part (21) according to one of claims 1 to 5, characterized in that at least one sealing ring (30) is arranged on the tubular element (22).
[7]
7. plug part (21) according to one of claims 1 to 6, characterized in that between the union nut (24) and the flange (25) of the tubular element (22) a sliding ring (31) is arranged made of electrically conductive material.
[8]
8. plug part (21) according to one of claims 1 to 7, characterized in that the union nut (24) in the direction of the free end of the pipe bend (19) of decreasing diameter, and is preferably frusto-conical.
[9]
9. plug part (21) according to one of claims 1 to 8, characterized in that the union nut (24) has a plastic sheath (33).
[10]
10. socket part (34) for detachable connection of a hose assembly (20) to a pipe bend (19) of a gas-cooled welding torch (7) arranged plug part (21), with an at least partially cylindrical end piece (35) having an axially extending channel (34). 37) for a welding wire (9) and a protective gas (5), and with an external thread for connection to a corresponding internal thread of a cap nut (24) of the plug part (21), characterized in that the end piece (35) at least one axial slot ( 39).
[11]
11. socket part (34) according to claim 10, characterized in that in the direction of the plug part to be connected (21) resiliently mounted pin-shaped element (36) is provided which defines at least one angular position of the pipe bend (19) of at least one receiving opening ( 26) in the plug part (21) is receivable.
[12]
12 socket part (34) for releasably connecting a Schlauchpa- 02-04 ^ 2012 Hfl NO 2012/50114 16 kets (20) with a on a pipe bend (19) of a gas-cooled welding torch (7) arranged plug part (21), with an at least partially cylindrically shaped end piece (35) with an axially extending channel (37) for a welding wire (9) and a protective gas (5), and with an external thread for connection to a corresponding internal thread of a union nut (24) of the plug part (21), characterized in that a pin-shaped element (36) is provided which is resiliently mounted in the direction of the plug part (21) to be connected and which is capable of receiving at least one angular position of the pipe bend (19) from at least one receiving opening (26) in the plug part (21) ,
[13]
13. socket part (34) according to claim 11 or 12, characterized in that the pin-shaped element (36) has a substantially hemispherical end (38).
[14]
14. socket part (34) according to any one of claims 10 to 13, characterized in that at the end piece (35) with a chamfer (32) on the flange (25) of a cylindrical tubular element (22) of the male part (21) corresponding chamfer (45) is arranged.
[15]
15. socket part (34) according to any one of claims 10, 11 or 13 or 14, characterized in that the end piece (35) has two crosswise arranged slots (39).
[16]
16. Connecting device for releasably connecting a pipe bend (19) of a gas-cooled welding torch (7) with a hose package (20), wherein the pipe bend (19) has a plug part (21) according to one of claims 1 to 9 and the hose package (20) a socket part (34) according to any one of claims 10 to 15.
[17]
17. Connecting device according to claim 16, characterized in that the plug part (21) connected to the pipe bend (19), preferably soldered, is.
[18]
18. Connecting device according to claim 16 or 17, characterized in that the socket part (34) with the end of a Nrited: 02rÖ4 ^ 2Ö12 Ιβ ^ ®β [014.1 17 hose package (20) at most with the interposition of a burner housing (7 *) is connected .
[19]
19. Connecting device according to one of claims 16 to 18, characterized in that the pipe bend (19) relative to the hose package (20) is rotatable through 360 °, wherein at least one angular position of the pipe bend (19) through the at least one receiving opening (26) in Plug part (21) and the pin-shaped element (36) in the socket part (34) is fixed.

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引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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DE2243924A1|1972-09-07|1974-03-21|Messer Griesheim Gmbh|Gas shielded electric arc welding gun - is simply adaptable and manipulatable|

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DE2429882A1|1974-06-21|1976-01-08|Messer Griesheim Gmbh|Welding burner, esp. for metal-inert gas welding - using curved burner pipe held by lock-nut on burner handle|

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DE9216866U1|1992-12-11|1993-02-04|Alexander Binzel Gmbh & Co Kg, 6300 Giessen, De|

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WO2011014900A1|2009-08-06|2011-02-10|Fronius International Gmbh|Flexible pipe bend for a welding torch having a positioning arm formed as mechanical separation; welding torch having such a flexible pipe bend|

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DE2146404A1|1971-09-16|1973-08-30|Messer Griesheim Gmbh|Gas shielded electric arc welding gun - is simply adaptable and manipulatable|

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US4270824A|1979-03-30|1981-06-02|Dover Corporation|Electrical clamp|

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US4549068A|1983-12-09|1985-10-22|Kensrue Milo M|Welding torch having swivel head assembly|

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FR2588116B1|1985-10-01|1988-01-08|Framatome Sa|DEVICE FOR LOCKING A GUIDE RING ON A PLATE COMPRISING AN OPENING AND ITS APPLICATION TO A NUCLEAR REACTOR GUIDE TUBE|

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US5384447A|1993-01-06|1995-01-24|Bernard Welding Equipment Company|Electric arc welding gun|

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DE19513458A1|1995-04-08|1996-10-10|Team Binzel Ind Gmbh & Co Kg|Interchangeable connection for hose and body of manual arc-welding and cutting torch|

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IT239427Y1|1995-11-14|2001-02-26|Trafimet Spa|FITTING TO CONNECT AN ELECTRODE HOLDER CLAMP TO THE ATTACHMENT OF A TIG UNATOR|

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US5841105A|1996-01-16|1998-11-24|Delaware Capital Formation, Inc.|Automatic mig welding torch and method of assembly|

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US5798493A|1996-05-14|1998-08-25|Heller, Sr.; Walter R.|Fixed welding apparatus and method|

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US6720528B1|2002-10-16|2004-04-13|Illinois Tool Works Inc.|Head tube assembly having insulated mechanical interface with welding gun body|

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CN2624052Y|2003-04-12|2004-07-07|樊邦弘|Combined water-joint|

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CA2788005A1|2006-06-09|2007-12-21|Tweco Products, Inc.|Flexible conductor tube for a welding gun|

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US8993928B2|2006-06-09|2015-03-31|Victor Equipment Company|Repositionable attachment device for welding gun conductor tubes|

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US8443865B2|2009-08-21|2013-05-21|Hennessy Industries, Inc.|Wheel clamping apparatus and method|CA2994869A1|2015-08-13|2017-02-16|Henlex Inc.|Welding gun with lockable rotation mechanism|

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US20170151622A1|2015-11-30|2017-06-01|Illinois Tool Works Inc.|Welding process wire feeder adapter insulator|

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WO2019161225A1|2018-02-15|2019-08-22|Ideal Industries, Inc.|Adaptive multi-purpose pneumatic electric connector|

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EP3620254A1|2018-09-06|2020-03-11|FRONIUS INTERNATIONAL GmbH|Mig/mag welding torch body, mig/mag welding torch handle and mig/mag welding torch with such a welding torch body and mig/mag welding torch handle|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA50114/2012A|AT512729B1|2012-03-30|2012-03-30|Plug part and socket part for releasably connecting a pipe bend of a gas-cooled welding torch with a hose package and connecting device with such a plug part and socket part|ATA50114/2012A| AT512729B1|2012-03-30|2012-03-30|Plug part and socket part for releasably connecting a pipe bend of a gas-cooled welding torch with a hose package and connecting device with such a plug part and socket part|

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EP13713717.0A| EP2819803A2|2012-03-30|2013-03-06|Plug part and socket part for detachably connecting a tube elbow of a gas-cooled welding torch to a hose packet, and connecting device with such a plug part and socket part|

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PCT/AT2013/050056| WO2013142887A2|2012-03-30|2013-03-06|Plug part and socket part for detachably connecting a tube elbow of a gas-cooled welding torch to a hose packet, and connecting device with such a plug part and socket part|

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CN201380017779.1A| CN104220206B|2012-03-30|2013-03-06|For the tubular corner of gas cooled welding torch to be detachably connectable to the male component and female component and the attachment means with this male component and female component of hose packing|

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US14/388,893| US9636767B2|2012-03-30|2013-03-06|Plug part and socket part for detachably connecting a tube elbow of a gas-cooled welding torch to a hose packet, and connecting device with such a plug part and socket part|