EP1125656A2 - Rotary passage for liquid cooled roll - Google Patents

Abstract

Rotary transmission leadthrough has coolant lines (1, 2) fixed to a tensioning plate (3) on which a two way guide (6) is fixed. The two way guide is connected to the coolant lines and with inclusion of a compensator (9) via a plug-in connector (10) to the coolant channels (15, 18). Preferred Features: The two way guide is detachedly fixed to the tensioning plate via a quick catch lever (5). The tensioning plate has a guiding rail along which the two way guide can travel.

Description

The invention relates to a rotating union for the and draining liquid coolant through a One end bearing journal on this and one additional bearing pivoted roller, especially a transport roller of a roller hearth furnace, with coolant channels running axially in the roll, via a fixed two-way guide with fixed, connected to a coolant supply network Coolant lines are connected, between which a journal and the two-way guide an axial and Tilting movements of a bearing journal Compensator device is arranged.

A rotary union of this type is, for example, out DE 197 52 336 C1 known. At this level the Technology are the coolant lines through which the Coolant, especially cooling water, of the rotating union is fed in or discharged from it as stationary standpipes educated. These are in plug-in receptacles stationary cover plate, which is fixed with a bearing block is connected to the bearing journal with a roller bearing is stored. The cover plate serves to encapsulate the entire rotating union. Through them the end is Roll formed a sealing space in which the bearing journal protrudes, so that possibly from the end Coolant escaping from the bearing journal Sealing space can emerge. In addition, the Cover plate designed as a two-way guide, by means of the coolant through and separate channels of the role is dissipated by her. There are two coaxial tubes for this provided that leading away from the cover plate in the Bearing journal axially running coolant channels are plugged in. It is in the bearing journal inserted part of the outer tube as Compensator device for axial and tilting movements of the Bearing pin and at the same time as a seal outer axially extending coolant channel to the Formed sealing chamber. This as a torsionally rigid, length-flexible and flexible hose Part of the outer tube takes relative axial and Tilting movements between the stationary cover plate and the movable bearing journal.

To replace one with one Equipped roller it is necessary that the cover plate is unscrewed from the bearing block and then pulling it out into the trunnion leading pipes from the journal is removed before the roller is pulled out of the pedestal. This Setting up a rotating union therefore requires several time consuming disassembly and assembly steps during of exchanging a role.

In the field of use of such rotary unions However, there are use cases in which the Replacement of a role must be done very quickly. This is e.g. then the case when at a Thin slab caster such rolls in one Roller hearth furnace are arranged. To be a continuous To ensure operation of the system, the Role change in the between casting and again Start of casting time available, the so-called Pouring break. The time-limited change of the Role can with the known and described in more detail Construction of the rotating union cannot be carried out.

The invention is therefore based on the object To create a rotating union of the type mentioned at the beginning, that can be disassembled and reassembled more quickly than the well-known rotary union.

The task is at the turn of the beginning described type solved in that the Coolant lines firmly to a clamping plate are connected, on the two-way guide such can be fastened that the two-way guide with the Coolant lines and including the Compensator device in the one journal plug-in connector with the coolant channels connected is.

The rotary union according to the invention sees as an axial and allow tilting movements of the trunnion Rotating union with a stationary on a clamping plate Coolant lines attachable two-way guide mechanically by the compensator device Bearing journal is decoupled, but with line technology its coolant channels is connected. That's why it is for dismantling the rotary union according to the invention now only necessary, the two-way guidance from the Loosen the clamping plate and the plug connection from the Pull out coolant channels. This implies Another reason is that the dismantling of the Rotary union, since in the invention Turning on the elaborate measures for Densities provided in the prior art Sealing chamber can be dispensed with. Sealing the Coolant channels of the one bearing journal take place at the end via the plug connection.

The necessary for the sealing effect of the connector Axial alignment of the connector with the in the role of axially extending coolant channels achieved in that the two-way guide firmly attached to the Clamping plate is connected, which in turn is firmly attached to the stationary coolant lines is connected. Thus by attaching the connector Two-way guide on the clamping plate ensures that the two-way guide always has the same relative position takes to the journal, whereby it is achieved that the plug connection axially with the bearing journal is aligned.

Another simplification of disassembly and assembly a role is achieved in that the journal on Bearing rollers supported and on by a holding element this is held. This enables that on the Disassembly of one provided in the prior art rolling bearing attached to the end of the bearing journal can be dispensed with. It must be dismantled from the role only the holding element can be solved, whereupon the Pull the bearing pin down from the two bearing rollers can be.

The detachable connection between the two-way guide and the clamping plate is preferably a Quick release lever mechanism reached. By the Two-way guidance via quick release lever on the Clamping plate is attached, it will be used during the Operating safely and firmly held on the clamping plate and connected to the coolant lines in a sealing manner, while on the other they can be dismantled quickly by loosening the quick release lever can be released from the clamping plate can.

To the axial alignment of the connector relative to adjust the coolant channels in a simple way can, the clamping plate can be a guide rail have, along which the two-way guide is movable. With this guide rail ensures that the connector is always accurate experienced axial alignment relative to the journal.

In a preferred embodiment of the invention, the Plug connection have two concentric tubes, by which the inner tube with one end in one Coupling of the central coolant channel of the axial extending coolant channels can be inserted and with its other end is connected to the two-way guide and of which the outer tube as a guide tube with its one end in a centering bushing of another Coolant channel is insertable and with its other End over a compensator of the compensator device is connected to the two-way guide. According to this preferred embodiment, the connector consists of two pipes, the inner pipe of which, for example Coolant discharge and its outer tube, for example the coolant supply can serve. The inner tube is then in the central axially running in the role Coolant channel inserted, which is the return of the Coolant is used within the roll. The outer tube in this case is axial with the one in the roll extending coolant channel connected to the supply and distribution of the coolant within the role.

The outer tube is in the preferred embodiment Invention designed as a guide tube that serve should, the connector in the bearing end introduce and insert.

There is regular transport rollers in roller hearth furnaces the problem that the role due to the Expands heat and due to the Weight load caused by the roll Material is bent so that the end arranged bearing journal from its horizontal extending orientation is tilted. The axial and Tilting movement of the bearing journal is carried out by a Compensator device added so that they are not on the fixed two-way tour is passed on. Otherwise, stress or deformation of the stationary two-way guidance.

In the preferred embodiment of the The invention is the compensator device as a compensator formed with the outer tube of the connector the two-way guide connects. That in the bearing journal inserted outer tube comes with the bearing pin its thermal expansion shifted and tilted. This Relative movement of the outer tube is however caused by the Compensator added and not to the two-way guide passed on.

According to a first embodiment, the compensator is as corrugated circular disc formed, the outer edge with the two-way guide and its inner edge with the Guide tube is connected.

According to a second embodiment of the compensator this is tubular and corrugated and with two pipes connected, the first of which is external Guide tube is inserted in the bearing pin and that second tube as a connection between the compensator and serves as a two-way guide.

The centering bush into which the guide tube of the Plug connection is inserted, preferably consists of a wrought copper alloy. Wrought copper alloys are inexpensive to manufacture and also have a low coefficient of friction, so that Guide tube into the centering bushing easily and without abrasion can be inserted.

To prevent the coolant from escaping from the journal prevent, the centering bush seals the axial Coolant channel both at the end and opposite Guide tube. The seal against that Guide tube is preferably achieved in that the inner circumference of the centering bush on the A sealing ring in the face facing the inside of the roller a groove intended for this is inserted. This Sealing ring can, for example, from one against the Front face of the centering bush facing the inside of the roller screwed retaining ring held and pressed into the groove is.

Fig. 1

eine Drehdurchführung in einer teilweise geschnittenen Seitenansicht,

Fig. 2

eine weitere Drehdurchführung in einer teilweise geschnittenen Seitenansicht
und

Fig. 3

die Drehdurchführung gemäß Fig. 2 in einer stirnseitigen Ansicht.

The present invention is explained in more detail below with reference to a drawing which shows two exemplary embodiments. In detail show:

Fig. 1

a rotating union in a partially sectioned side view,

Fig. 2

another rotating union in a partially sectioned side view
and

Fig. 3

2 in an end view.

1 shows two coolant lines 1, 2 One does not supply or remove coolant shown coolant supply network. The Coolant lines 1,2 are each fixed with a Clamping plate 3 connected. The clamping plate 3 is stationary connected to a bottom plate 4.

A two-way guide 6 is fixed via a tension lever 5 clamped on the clamping plate 3. This also means provided separately from each other in the two-way guide 6 Channels 7,8 each with one of the coolant lines 1,2 connected. The two-way guide 6 is included a compensator device 9 via a plug connection 10 connected at the end to a bearing pin 11 with which and another journal only partially shown transport roller of a roller hearth furnace is pivoted at the end.

The plug connection 10 consists of an inner tube 12 and an outer tube called a guide tube 13. The inner tube 12 is within the two-way guide 6 connected to the channel 8 provided therein. On the Side of the journal 11 is the inner tube 12 in one Coupling piece 14 in the center of the bearing journal 11 and axially guided coolant channel 15 inserted.

The guide tube 13 is on the side of the two-way guide 6 designed as a corrugated circular washer Compensator 16 of the compensator device 9 with the Two-way guide 6 connected and close to its channel 7 connected by its inner edge to one Collar 13a of the guide tube 13 and with its outer Edge on the outside of a channel 7 Radial flange 6a of the two-way guide 6 tight connected. The radial flange 6a carries on the Side of the journal 11 a cover 6b, the Collar 13a engages behind, so that they on the one hand as Driver when pulling out the guide tube 13 acts and on the other hand together with the radial flange 13a forms a protective housing for the compensator 16.

The guide tube 13 is on the side of the bearing pin 11 screwed into one end with the bearing journal 11 Centering socket 17 inserted. The centering bushing 17 closes one end of the journal 11 in the Bearing pin 11 axially extending, coaxial to the Coolant channel 15 arranged coolant channel 18. For this purpose is a groove on the inner circumference of the centering bushing 17 19 provided in which a sealing ring 20 is seated by a retaining ring screwed to the centering bushing 17 21 is held in the groove 19.

The bearing pin 11 is on two parallel bearing rollers 22 rotatably supported and is not by one shown, overlapping him from above, detachable Bracket held on the bearing rollers 22.

Fig. 2 shows a further embodiment of the Rotary union. This differs from that in Fig. 1 shown first embodiment only by the shape and arrangement of the compensator device, so that while maintaining the same reference numerals for same components to avoid repetitions only on the special construction of this Compensator device to be entered.

The connector 10 shown in Fig. 2 consists of an inner tube 12 and an outer guide tube 13, that of a front tube 24 and a rear tube 25th consists. Both tubes 24, 25 are corrugated, tubular compensator 26 connected to each other, both ends of which are on collars 24a, 25a of tubes 24, 25 are tightly connected. The compensator 26 is from a sleeve 26a serving as a protective housing and driver surrounded, which engages behind the collars 24a, 25a. With a End of the sleeve 26 a is attached to the front tube 24. she can be composed of half shells. The front one Tube 24 is in the centering bushing 17 of the bearing pin 11 introduced. The rear tube 25 is with the Two-way guide 6 connected.

In Fig. 3 it can be seen that and how the Coolant line 2 tight and tight with the clamping plate 3 connected is. It is also shown that the Two-way guide 6 in a guide rail 27 axially Bearing pin is slidably guided. Furthermore is too recognize that between the two-way guide 6 and Clamping plate 3 seals 28 are provided, one tight connection between the coolant line 2 and enable channel 8. Likewise, in this way In Fig. 3 not shown coolant line 1 with the Channel 7 connected.

The two-way guide 6 has hooks 29 on each side in which the eyelets of the clamping levers 5 engage, around the two-way guide 6 firmly on the clamping plate 3 tense.

To cool the hot rolling on it Material heated, not shown roll together Bearing pin 11 will not coolant from that coolant supply network shown on the Rotary feedthrough in the axially in the bearing pin 11 extending coolant channel 18 initiated from which the coolant in several in the, not shown Role intended channels, also not shown is distributed. The heated coolant is over the centrally in the journal 11 axially extending Coolant channel 15 collected and over the Rotary union and the coolant line 2 discharged.

Inside the rotating union, the coolant from the coolant line 1 in the channel 7 and from this via the guide tube 13 into the coolant channel 18 initiated. The coolant to be removed is the inner tube 12 in the channel 8 of the two-way guide 6 initiated and from this channel 8 in the Coolant line 2 derived.

The bearing journal 11 expands due to thermal expansion axially, so this extension of the bearing pin 11th partly due to a relative shift in the Centering bushing 17 balanced to the guide tube 13. But above all, the compensator 16 or 26 of the Compensator device 9 a part of the axial Record shift. The inner tube 12 can move axially in the coupling piece 14.

Should the bearing pin 11 by a deflection of the Roll will be tilted around its central axis, so this tilting movement on the in the centering bushing 17th guided guide tube 13 transmitted. The tilting movement is however from the compensator 16 and 26 respectively Compensator device 9 added so that it does not is transferred to the two-way guide 6. That limits flexible inner tube 12 takes the tilting movement also on. This ensures that none Voltages are transmitted to the two-way guide 6, the caused by the clamping lever 5 safe and firm hold of the two-way guide 6 on the clamping plate 3 could influence.

In the operating state, the pivot pin 11 rotates Coupling piece 14, the inner coolant channel 15 and the Centering bushing 17 with the roller while the inner Tube 12 and the guide tube 13 of the connector non-rotatably connected to the fixed two-way guide 6 are.

To exchange the role and the necessary Disassembly of the rotating union will be the clamping lever 5 solved so that the firm connection between the Two-way guide 6 and the clamping plate 3 is lifted. Then the two-way guide 6 in the axial direction pulled away from the journal, the connector 10 is pulled out of the journal 11. Then the bracket, not shown, the Bearing pin 11 on the bearing rollers 22 holds, solved, so that the bearing pin 11 of the bearing rollers 22 axially can be pulled down and - at one Roller hearth furnace - the roller with one on the other Axle-engaging manipulator is pulled out can be.

To assemble a new role, the role with your Journal 11 pushed onto the bearing rollers 22 and there held down with the bracket, not shown. Then the two-way guide 6 with your Plug connection 10 at the end in the bearing pin 11 introduced and by means of the clamping lever 5 firmly on the Clamping plate 3 clamped.

With the rotary union shown, one is also with quick disassembly to be carried out in a few assembly steps and assembly of the rotating union and one with it associated rapid change of role possible.

Claims (11)

Rotary feedthrough for the introduction and discharge of liquid coolant via a bearing pin (11) on a roller rotatably mounted at the end of this and a further bearing pin, in particular a transport roller of a roller hearth furnace, with coolant channels (15, 18) running axially in the roller a stationary two-way guide (6) is connected to stationary coolant lines (1, 2) connected to a coolant supply network, the compensating device (1) and the two-way guide (6) permitting axial and tilting movements of the one bearing journal (11) between the one bearing journal (11) 9) is arranged
characterized in that the coolant lines (1,2) are firmly connected to a clamping plate (3) on which the two-way guide (6) can be fastened such that the two-way guide (6) with the coolant lines (1,2) and including the Compensator device (9) is connected to the coolant channels (15, 18) via a plug connection (10) which can be inserted into one bearing journal (11). Rotary union according to claim 1,
characterized in that the bearing journal (11) is supported on bearing rollers (22) and is held thereon by a holding element. Rotary union according to claim 1 or 2,
characterized in that the two-way guide (6) can be releasably attached to the clamping plate (3) by means of quick-release levers (5). Rotary union according to one of claims 1 to 3,
characterized in that the clamping plate (3) has a guide rail (27) along which the two-way guide (6) can be moved. Rotary union according to one of claims 1 to 4,
characterized in that the plug connection (10) has two concentric tubes (12, 13), one end of which has the inner tube (12) into a coupling piece (14) of the central coolant channel (15) of the axially extending coolant channels (15, 18) can be inserted and is connected at its other end to the two-way guide (6) and of which the outer tube as a guide tube (13) can be inserted at one end into a centering bushing (17) of a further coolant channel (18) and with its other end End of a compensator (16, 26) of the compensator device (9) is connected to the two-way guide (6). Rotary union according to claim 5,
characterized in that the compensator (16) is a corrugated circular washer, the outer edge of which is connected to the two-way guide (6) and the inner edge of which is connected to the guide tube (13). Rotary union according to claim 5,
characterized in that the guide tube (13) consists of two tubes (24, 25) which are connected to one another via a tubular, corrugated compensator (26), the first tube (24) at its end facing away from the compensator (26) in the centering bushing (17) can be inserted and the second tube (25) is connected to the two-way guide (6) at its end facing away from the compensator (26). Rotary union according to one of claims 5 to 7,
characterized in that the centering bushing (17) consists of a wrought copper alloy. Rotary union according to one of claims 5 to 8,
characterized in that the centering bushing (17) seals the axial coolant channel (18) both at the end and also with respect to the guide tube (13). Rotary union according to claim 9,
characterized in that a sealing ring (20) is inserted into a groove (19) provided for this purpose on the inner circumference of the centering bushing (17) on its end face facing the inside of the roller. Rotary union according to claim 10,
characterized in that the sealing ring (20) is held by a retaining ring (21) screwed against the end face of the centering bushing (17) facing the inside of the roller and is pressed into the groove (19).

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