DE10051606A1 - Method and device for annealing pipes - Google Patents

Abstract

The invention relates to tubes which are coil-shaped, and a plurality of coils which are annealed together and then coated with a protective gas. Each coil is connected to an individually controllable protective gas supply line and to an individual protective gas exit line. The seal comprises a mother plug (1), whose through-openings (6) are connected to the coils and an adapted fatherp lug (2), whose through-openings (10) are connected to separate protective gas lines. A plurality of tube supports (7) are arranged in a displaceable manner inside the through-openings (6) of the mother plug (1) and are tightened in a sealed manner inside thet hrough-openings (10) of the father plug (2) by an actuating element (9).

Description

The invention relates to a method for annealing raw ren wound into coils, a plurality of Coils annealed together and flushed with protective gas becomes.

An essential area of application of the invention is that Bright annealing of copper pipes as you can see them on a large scale in refrigeration technology. They serve the refrigerant to be transported through the respective heat exchanger. To do this, it is imperative to keep the tubes while glowing purging with protective gas to prevent contamination of the pipe area, the so-called occupancy. A residual Allocation is only permitted within very narrow limits, otherwise the processes of refrigeration are significantly affected would.

Several coils are stacked one on top of the other Arranged annealing racks and then annealed together. To the entry into the oven is connected to the Protective gas source. Usually the bottom glow rack connected to a protective gas line, from the bottom Glow rack from the distribution of the protective gas to the one individual coils.

Practice shows that the individual coils one and the have different remaining assignments for the same batch.

The invention has for its object in the individual to achieve uniform flushing performance in batches len.

To solve this problem is the Ver drive according to the invention, characterized in that each Coil to a separately controllable shielding gas supply and a separate shielding gas outlet is connected.

The invention is based on the knowledge that the previous different flushing performance of the individual coils  can only be attributed to the fact that the individual coils with different amounts of purge gas. There the parallel supply conditions are uniform and the flow resistance of the individual coils does not change the quantities differ significantly from each other differ due to the inevitable leak losses are different.

The invention ensures that each coil ge separately is flushed and that different leakage losses compensate can be. In addition, the emerging protective gas monitored for its contamination level be, so that there is the possibility of the individual coils individually with the adjusted shielding gas throughput supply. There is also the possibility, in addition to the Shielding gas throughput also the purging time and the coil temperature to control. Not only the content of impurities can the control, but also their Composition, for example their carbon content. Furthermore, there is a targeted adjustment to different ones permissible remaining assignments possible, within one and the same batch.

The invention also achieves an essential one additional benefit. So far this has been contaminated protection gas introduced into the furnace, causing it to become an impurity of the furnace interior and the cold coil surfaces. These disadvantages are eliminated because the contaminated protective gas is derived directly from the coil.

To carry out the method according to the invention, the “docking” of the coils into the separate protective gas lines is part of the process, specifically on the supply and discharge sides. In order to be able to carry out this method step with minimal effort, namely with a single handling, the invention provides a device for connecting a plurality of coils wound from tubes to a device for supplying and / or removing protective gas

• - A matrix connector assigned to the coils with a Insertion opening and a plurality of through openings, which can each be connected to an associated coil,
• - One of the device for feeding and / or discharging Shielding gas assigned Patrix connector, which in the A slot of the matrix connector fits and a plurality of Has through openings, each connected to an associated separate protective gas line can be connected,
• - A plurality of pipe sockets, each in one associated through opening of a connector axially ver can be pushed and sealed into an associated through opening voltage of the other plug can be inserted, and
• - An actuating element assigned to the Patrix connector element for moving the pipe socket in the matrix plug The inserted Patrix connector.

The matrix connector is on one of the glow racks, in usually attached to the lowest glow rack, and the Patrix connector forms the actual docking station inside half of the oven. The control of the Patrix connector and the Actuator takes place from the outside, but under the Prerequisite that the coils are in the docking station are located.

There is quite a possibility with one Plug pair get along, then the through holes half for feeding and half for draining of the protective gas. As a rule, however, one is with two pairs of plugs work in any orientation arranged to each other and preferably from a common one Actuation station can be operated from. Doing so after inserting the respective Patrix plug into the Matrix connector the associated actuator in operation set to engage the pipe socket and seal it tend to be inserted into the corresponding through openings. The latter are preferably tapered  Provide entry area against which the associated Pipe socket is clamped by the actuator.

In an essential further development of the invention, it is provided hit that the actuator head with a has a tapering scope that is in an out Take the Patrix connector, which is a compliment to yourself has a continuously tapering circumference, is axially displaceable, the head having a plurality of through openings for Includes the pipe socket and with side openings is provided, which belongs to the through openings lead to the circumferential surface and each a movable, from the Circumferential surface protruding clamping element, preferably in Shape of a sphere.

When docking, the Patrix connector is inserted into the On plug opening of the matrix plug inserted. Then will the actuator moved, namely in that Direction in which its circumference and that of the recess rejuvenate. The clamping elements occur with the scope of Recess in contact and are facing inwards ver on the through openings of the actuating element through which the pipe sockets go. You grieve Start at the pipe socket and take it in their seal tending position with, where they are in the pipe socket Push. Any differences in position of the pipe socket are automatically balanced. The actuator will held in its tensioned position during the glow and then ver to release the connection in the opposite direction postponed.

The head of the actuator can be actuated have a rod that runs centrally through the Patrix connector is carried out and around which the through openings of the head are preferably arranged in a circle. The Be The operating rod is sealed through the furnace wall led and can be arranged via an outside of the furnace Operate the piston working machine.  

The circumference of the head and the recess of the patrix Connector can ver in the direction of the matrix connector jüngen. The pipe sockets are then in the Patrix-Stec ker and are from the actuator in the same direction moved in which also the insertion of the Patrix connector into the insertion opening of the matrix connector. The Ki Nematics is therefore simple, as the Patrix connector is used for Ver do not push the actuator separately must be. Technically, however, this is Construction complicated, besides that the Ver wear-exposed pipe socket inside the furnace need to be exchanged.

A construct is therefore possibly more advantageous tion, in which the circumference of the head and the ex Taper in the direction away from the matrix connector. The pipe socket is slidable in the through openings of the matrix connector and are from the actuator sealing element sealing into the through openings of the Patrix connector pulled in. So the pipe socket can be replaced as soon as the glow racks ver have let. Preferably by a corresponding Lock ensures that the pipe socket when loosening the connector is not pulled out with the Patrix connector be.

When inserting the Patrix plug into the insertion opening the pipe connector enter the Through openings of the head of the actuating element. For this purpose, it is advantageous that these are at their A end tapered towards the matrix connector tern, which also facilitates automatic centering becomes.

Constructions are conceivable in which the head of the Be actuating element and the associated recess of the patrix Plug have a polygonal cross section and themselves taper pyramid-shaped. This has the advantage that the  Angular position of the actuating element relative to the patrix Connector is automatically fixed. Easy to manufacture On the other hand, cher is also one from this point of view preferred construction in which the head of the actuator elements and the recess of the Patrix connector are truncated cone have circumferential surfaces and ver non-rotatably are bound.

Furthermore, it is proposed in a further development of the invention conditions that the insertion opening of the matrix connector itself in the direction of the Patrix connector, which is constantly expanding catch and that the Patrix connector with an insertion Kende is provided, which is a complementary, steady has an expanding scope. Again, a poly gonal, pyramid-shaped configuration is conceivable, the one automatic location assignment ensures that from ferti for technical reasons, frustoconical configurations with means for fixing the mutual insertion location are preferable.

The invention is based on a preferred Embodiment of the connector device in connection explained in more detail with the accompanying drawing. This shows in:

Fig. 1 shows an axial section through the connector.

Fig. 1 shows a matrix connector 1 for attachment to the lowest glow rack of a coil stack and a Patrix connector 2 , which has been inserted at the docking station into an insertion opening 3 of the matrix connector. The insertion opening 3 has a conical peripheral surface 4 , while the Patrix connector 2 is provided at its insertion end with a complementary conical peripheral surface 5 . Fer ner are not shown means are provided which allow the lead of the Patrix connector 2 into the insertion opening 3 of the matrix connector 1 only in one or more, defined before given angular positions.

The matrix connector 1 has a plurality of through openings 6 , which can be connected to the individual coils and in which pipe sockets 7 are arranged displaceably. The pipe socket 7 extend through a head 8 of an actuating element 9 and are clamped by this from sealing into through openings 10 of the Patrix connector 2 . The entry areas of the Durchgangsöffnun conditions 10 are, as shown, flared. The through openings 10 can be connected to separate protective gas lines.

The actuating element 9 has an actuating rod 11 , which is preferably connected in one piece to the head 8 and is guided centrally through the Patrix plug 2 . The passage openings 10 are distributed in a circle around the actuating rod 11 of the actuating element 9 .

The head 8 of the actuating element 9 also has through openings 12 through which the pipe sockets 7 pass. In order to facilitate the entry of the pipe socket 7 into the through openings 12 of the head 8 when the plug connection is made, the through openings 12 are , as shown, flared at their entry ends.

The head 8 of the actuating element 9 has a conical peripheral surface 13 and works in a recess 14 of the patrix connector 2 , the recess 14 being provided with a complementary conical peripheral surface 15 . Seitenöff openings 16 of the head 8 lead from the peripheral surface 13 to the through holes 12 and serve to receive Ku gels 17 , which have the function of clamping elements.

When the Patrix connector 2 of the matrix plug 1 is inserted into the insertion opening 3, the plug 1 arranged in the matrix pipe socket 7 enter into the calculations Durchgangsöff 12 of the operating member 9 a. The head 8 of the actuating element 9 is located in the vicinity of the bottom of the insertion opening 3 of the matrix connector 1 . Then the actuating element 9 is moved, namely downwards in Fig. 1. The balls 17 come on the circumferential surface 15 of the recess 14 to the system, progressively push into the pipe socket 7 and take it with them until they reach the conical entry areas of the through openings 10 of the Patrix connector 2 come to seal. The latter is recorded. Not Darge provided means ensure that the actuator 9 holds a fixed position relative to the Patrix connector 2 beibe.

The through openings 6 of the matrix connector 1 and the associated through openings 10 of the patrix connector 2 can be connected to protective gas supply lines or to protective gas discharge lines. Two such plug connections are then required to carry out the method according to the invention. Alternatively, it is possible to connect half of the through openings to protective gas supply lines and the other half to protective gas discharge lines. A single plug connection is sufficient.

Within the scope of the invention Abwandlungsmög possibilities are given. Above all, the orientation of the conical surfaces 13 and 15 of the head 8 of the actuating element 9 or the associated recess 14 can be reversed. The pipe socket 7 then form part of the Patrix connector 2 and are inserted into corresponding sealing areas of the through openings 6 of the matrix connector 1 .

Claims (10)

1. A process for the annealing of pipes which are coiled to coils, a plurality of coils being annealed together and being flushed with protective gas, characterized in that each coil is connected to a separately controllable protective gas supply and a separate protective gas discharge line. 2. Device for connecting a plurality of coils wound from tubes to a device for supplying and / or removing protective gas
a matrix connector ( 1 ) assigned to the coils with an insertion opening ( 3 ) and a plurality of through openings ( 6 ), each of which can be connected to an associated coil,
one of the means for supplying and / or discharging protective gas assigned patrix connector ( 2 ), which fits into a plug-in opening ( 3 ) of the matrix connector (19) and has a greater number of through-openings ( 10 ), each at a associated separate shielding gas line can be connected,
a plurality of pipe sockets ( 7 ), each of which is axially displaceable in an associated through-opening of the one plug and can be inserted sealingly into an associated through-opening of the other plug, and
an actuating element ( 9 ) assigned to the patrix plug ( 2 ) for moving the pipe socket ( 7 ) when the patrix plug is inserted into the matrix plug ( 1 ). 3. Apparatus according to claim 2, characterized in that the through openings ( 10 ) into which the pipe socket ( 7 ) can be inserted sealingly, have a conically tapering the entry area against which the associated pipe socket ( 7 ) can be braced. 4. Apparatus according to claim 2 or 3, characterized in that the actuating element ( 9 ) has a head ( 8 ) with a continuously tapering circumference, which in a recess ( 14 ) of the patrix connector ( 2 ), the one mentally, continuously tapering circumference, is axially displaceable, the head ( 8 ) has a plurality of through openings ( 12 ) for receiving the pipe socket ( 7 ) and is provided with side openings (16) from the through openings ( 12 ) lead associated peripheral surface and each contain a displaceable, from the peripheral surface in front of standing clamping element, preferably in the form of a ball ( 17 ). 5. The device according to claim 4, characterized in that the head ( 8 ) of the actuating element ( 10 ) has an actuating rod ( 11 ) which is passed centrally through the Patrix connector ( 2 ). 6. Apparatus according to claim 4 or 5, characterized in that the circumference of the head ( 8 ) and that of the recess ( 14 ) in the direction away from the matrix plug ( 1 ) taper ste tig. 7. The device according to claim 6, characterized in that the through openings ( 12 ) of the head ( 8 ) at their ren entry ends in the direction of the matrix plug ( 1 ) flare. 8. Device according to one of claims 4 to 7, characterized in that the head ( 8 ) of the actuating element ( 9 ) and the recess ( 14 ) of the patrix connector ( 2 ) have frustoconical peripheral surfaces ( 13 and 15 ) and rotatably are interconnected. 9. Device according to one of claims 2 to 8, characterized in that the insertion opening ( 3 ) of the matrix connector ( 1 ) has a continuously widening in the direction of the patrix connector ( 2 ) and that the patrix connector ker ( 2 ) is provided with an insertion end which has a complementary, constantly expanding scope. 10. The device according to claim 9, characterized in that the insertion opening ( 3 ) of the matrix connector ( 1 ) and the insertion end of the Patrix connector have frustoconical circumferential surfaces ( 4 and 5 ) and are provided with devices for fixing the mutual insertion orientation ,