DE102019102485A1 - Lance holder for oxygen lance tubes - Google Patents

Abstract

An essentially automatically working lance holder 1 has a lance holder housing 3, in which the clamping sleeve 4 is shifted via the hand lever 6 or the toggle lever 5 into a first position, where the clamping balls 8 are displaced via the bevel 9 against the outer wall of the oxygen lance tube 2 and be pressed against them. When the hand lever 6 is moved further into the second position, the clamping sleeve 4 with the pressure sleeve 7 and the pressure piston 14 are pushed further in the direction of the shut-off valve 10, this shut-off valve 10 being opened at the specified time and to the specified extent by the targeted movement of the oxygen lance tube 2 . The oxygen gas present can now flow in the direction of the oxygen lance tube 2 and through it. The shut-off valve 10 is accommodated as an independent structural unit in the shut-off valve housing 36, which thus forms a structural unit with the lance holder housing 3. Connection work or disconnection work on the two housings is therefore not necessary. A slag backflow protection housing 41 can be coupled to the shut-off valve housing 36 or the lance holder housing 3, in which an output valve 45 / input valve 42 that can be addressed via a heat sensor 43 is arranged.

Description

The invention relates to a lance holder for oxygen lance pipes with a clamping sleeve, which is articulated via a toggle lever with a pivotable hand lever and is formed to actuate a shut-off valve, and a pressure sleeve, which is designed to act on the inserted oxygen lance pipe via clamping balls and a slope.

Such lance holders are from the DE 199 03 473 A1 basically known. These oxygen lance tubes, which are required when freshening in steel production, are fixed in such lance holders in such a way that hazards should not be feared when the oxygen flows through. The inserted oxygen lance tube is fixed with a collet, whereby the collet is actuated with a swivel lever. The disadvantage is that when the oxygen lance tube is loosened, the collet does not open easily, so that work must be done on the tube with blows and similar auxiliary measures. The DE 10 2008 012 554 A1 describes a lance holder, which has a pipe fixation, which should prevent the turning of a bent lance tube in the lance holder. The above-mentioned fixation of the oxygen lance tube in the lance holder takes place via balls which are pressed onto the inserted oxygen lance tube via a slope of the tensioning part, the lance tube having to be pushed by hand as far as the stop in order to actuate the shut-off valve arranged behind it. In particular for odd or curved oxygen lance tubes, a lance holder from the DE 10 2012 004 515 A1 known that works with a so-called fixing part, which is screwed into the housing of the lance holder and in turn influences balls and presses onto the inserted oxygen lance tube. The pre-fixing part rotates around the inserted oxygen lance tube and must be actuated again when loosening the more or less burnt-off oxygen lance tube in order to release the pressed-on pressure balls. Apart from some handling problems, the process of opening the shut-off valve must be improved in order to ensure timely opening of the shut-off valve which does not endanger operation.

The invention is therefore based on the object of creating a lance holder that optimally fixes the oxygen lance tube and thus opens the shut-off valve safely and at the right moment.

The object is achieved in that the clamping sleeve and the associated pressure sleeve with the clamping balls and the oxygen lance tube inserted into the pipe guide of the lance holder are designed to be displaceable together via the hand lever in the direction of the shut-off valve.

With a lance holder designed in this way, the already fixed oxygen lance tube is displaced by a predetermined and fixed amount by means of the hand lever in the direction of the shut-off valve. This means that the shut-off valve is only opened automatically and always securely when the oxygen lance pipe is already fixed and sits exactly in front of the shut-off valve in such a way that the oxygen gas now released flows into the oxygen lance pipe and is passed on from there. A mechanically predetermined movement sequence ensures that the shut-off valve is opened at exactly the right time and the gas flows into the already fixed oxygen lance pipe.

According to an expedient embodiment of the invention, it is provided that the clamping sleeve is shaped and arranged to cooperate with a pressure piston which has an end stop and a compression spring and a buffer sleeve which actuates the shut-off valve is designed to make contact with the release spring. Via the inserted oxygen lance tube, the clamping sleeve with the oxygen lance tube can act on the pressure piston, which is designed in such a way that, via a compression spring and the release spring assigned to the buffer sleeve, the other parts of the tensioning and fixing device become again when the shut-off valve is closed and the oxygen lance tube is pulled out move back to their starting position.

The oxygen gas that is still in the oxygen lance tube when the shut-off valve is closed can usually flow out through the tube. If this is not possible because, for example, the oxygen lance pipe is clogged by slag, care must be taken to discharge this oxygen gas, which is not harmless, in that the pressure piston has longitudinal bores which are formed in a vent channel leading to the outside. A risk is therefore excluded.

While in the prior art it was necessary to work with a sealing ring that also transmits forces, this is not necessary in the solution according to the invention, since it is provided that a seal that can be pressed onto the inserted oxygen lance tube is assigned to the pressure piston. A sealing sleeve is therefore not necessary.

In order to avoid impairment and disadvantageous flow around the return spring of the shut-off valve by oxygen, it is provided according to an expedient further development of the invention that the shut-off valve, which is arranged inside the lance holder housing and via a spring surrounding the return spring, within of the shut-off valve housing has arranged sliding housing. The restoring spring, which is otherwise at risk, is thus arranged in a closed housing which consists of two housing parts which can be displaced relative to one another.

In order to keep the assembly effort within limits and to avoid further sealing points, the invention provides that the lance holder housing and the shut-off valve housing are made in one piece. This means that there is no need for a thread and thus for gluing, which would make the repair of such components considerably more difficult.

It is mentioned above that the sliding housing around the return spring consists of two components. In addition to this, it is provided that the sliding housing having a cavity for the return spring is formed in two parts, the housing part extending into the gas flow being fixed to the lance holder housing or to the shut-off valve housing, while the other housing part can be inserted into the first housing part and is designed with a sealing part at the end. Thus, the oxygen gas flow can be effectively interrupted via the sealing part, the return spring not only being securely accommodated in the sliding housing, but also an exact positioning of the sealing part on the wall of the shut-off valve housing being ensured via the design of this sliding housing. The sliding wall of the sliding housing ensures that the sealing part is always brought into the correct position over the entire displacement path.

For a further optimization, the invention provides that a guide head is provided at a distance from the sealing part, which is connected to the sealing part of the insertable housing part via a plunger and guided in a bore extension and designed to be gas-permeable. In addition to being guided through the sliding housing, a guide head is also provided here, which is guided in the housing extension in such a way that the optimal fit of the sealing part, ie the seal as a whole, is ensured.

Basically, slag return safeguards are known which are intended to ensure that in the event of a hazard, for example through a slag return through the oxygen lance tube, there can be no hazards from the oxygen gas. It is therefore a matter of stopping the supply of oxygen gas in good time, which is optimally possible by attaching a slag return protection housing to the lance holder housing, which is equipped with an inlet valve and an outlet valve with a heat sensor, the heat sensor having one that is visible from outside the lance holder housing Trigger indicator is connected. For the first time, not only is the timely closing of the slag return safety valve guaranteed, but this is also made visible so that the user knows immediately that he must not continue to use this lance holder because liquid slag or other problematic materials are in the lance holder housing, especially in the Oxygen lance pipe. Here, too, there is no thread and simple screw connections, which is made clear by the word dockable. The actual lance holder and the slag return safety device can therefore be serviced separately and possibly put in order without the effort required for this having an adverse effect on the operation.

The temperature in the gas flow is checked via the heat sensor and thus also in the entire lance holder housing. In order to immediately stop the inflow of oxygen gas in the event of danger, the invention provides that the heat sensor is arranged displaceably in a holder positioned in the gas flow and is connected via a web to the outlet valve which brings it into the closed position in the event of a trip. The heat sensor thus shifts in the direction of flow of the oxygen gas and pulls the outlet valve with it out of its “rest position” into the said closed position via the web. Since this process takes place with the flowing gas stream, this still supports this movement to a certain extent.

Attention has already been drawn to the fact that the closing of the outlet valve should be made visible from the outside by means of the said trigger indicator. This is possible according to the invention with the aid of the gas pressure, in which the outlet valve with the partition between the inlet valve and outlet valve is formed to form a cavity, this cavity being connected to the gas flow and the trigger indicator only in the event of a trigger. According to the invention, it is thus taught that by moving the output valve into its sealing position, the cavity behind it can be reached for the flowing gas, with the gas pressure already present in the closed output valve being sufficient to actuate the said trigger indicator, which is directed outwards acts so that it can be seen from the outside that the output valve has responded.

A quick and precise movement of the outlet valve is ensured by the outlet valve being designed like a bowl, the bowl rim carrying a seal that can be pressed onto the inside wall of the housing or the holder, and the inner bowl center having a return spring with a guide pin. With the guide pin and The return spring ensures that the response of the heat sensor and the closing of the outlet valve are specifically supported so that this process can be carried out quickly and precisely.

Said trigger indicator, which is visible from the outside, is implemented according to the invention in a very expedient and advantageous manner, in that pins are provided which are supported on the outer region of the bowl rim and are arranged at a distance, penetrating the wall of the slag return safety housing and forming the trigger indicator, which are provided when the trigger is activated Output valve connected to the cavity, that is, the bowl interior and can be moved from the oxygen gas present there to the outside of the slag return protection housing. As already mentioned, the dangerous situation is displayed automatically and quickly, so that there is sufficient time for the operator to carry out the necessary safety work.

If the other crew should be informed or warned in addition to the lance holder operator, it is advantageous if the pens are connected to a warning signal system. The extendable pin can thus press against a resistance that ensures that the warning signal is triggered.

The invention is characterized in particular by the fact that, in a simple and expedient manner, care is taken to ensure that the shut-off valve is triggered automatically to the extent that when the hand lever is operated, the already fixed oxygen lance tube is used to cover a precisely predefined path leads to the shut-off valve being opened quickly, safely and sufficiently far. Then the oxygen gas can be safely led into the liquid steel through the oxygen lance pipe. This shut-off valve, which is important for opening, is securely housed in a sliding housing and thus protects the return spring from the heat and other loads that occur. It is also ensured that the shut-off valve can be quickly closed again if necessary in order to prevent further transport of the hazardous oxygen gas.

At a distance from this, a slag return safety device is provided, which has an inlet and an outlet valve, the outlet valve being able to be closed safely and quickly via a heat sensor in the event of danger, so as to stop the forwarding of the oxygen gas. This danger is first of all displayed very quickly and safely to the operator by using pins as a trigger indicator, which push the pins out through the wall of the slag return safety housing so that they cannot be overlooked. It is conceivable that a flashing system is also connected to this, which is activated when the pins are pushed out, so that the operator can quickly and safely recognize the dangerous situation. Third parties can also be informed quickly and in good time by using this release indicator or the pens to address another warning device.

• 1 Einen Schnitt durch einen Lanzenhalter mit Schlackenrücklaufsicherung
• 2 eine Seitenansicht des Lanzenhalters im Schnitt,
• 3 eine Vergrößerung des Schnittes nach 1 vor dem Einschieben des Sauerstofflanzenrohres,
• 4 die Ansicht gemäß 3 mit eingeschobenem S auerstofflanzen rohr,
• 5 das Lanzenrohr gemäß 1 mit geschlossenem Absperrventil,
• 6 den Lanzerhalter im Querschnitt nach Einschieben des Sauerstofflanzenrohres und
• 7 die Schlackenrücklaufsicherung nach Ansprechen des Wärmefühlers.

Show it:

• 1 A cut through a lance holder with slag return protection
• 2nd a side view of the lance holder in section,
• 3rd an increase in the cut after 1 before inserting the oxygen lance tube,
• 4th the view according to 3rd with inserted oxygen lance tube,
• 5 the lance tube according to 1 with closed shut-off valve,
• 6 the lance holder in cross section after inserting the oxygen lance tube and
• 7 the slag return safety device after the heat sensor has responded.

The in 1 shown lance holder 1 is reproduced on average. The operating parts such as the toggle lever 5 and the hand lever 6 are only hinted at. Here is the actual hand lever 6 omitted here so as not to complicate the view.

With 3rd is called the lance holder housing, which is made of the possible material and via an adapter sleeve 4th that has the pressure sleeve 7 can be pushed in case of action. In doing so, the tension balls 8th on the oxygen lance ear, not shown here 2nd pressed on over the slope 9 . When moving the hand lever 6 the oxygen lance tube, not shown here, is then moved 2nd with the adapter sleeve 4th and the pressure sleeve 7 so that the oxygen lance tube 2nd then the shut-off valve as shown later 10th opens automatically. With 11 the pipe routing is called. The insertion of the oxygen lance tube is over the slants shown 2nd expediently relieved.

The pressure sleeve 7 also acts on the pressure piston 14 one that ensures that the compression spring 16 is tensioned accordingly to later loosen the oxygen lance tube 2nd to facilitate. With 15 is the end stop against which the oxygen lance tube is called 2nd pushed first becomes; based on 6 is that made clear. The end stop 15 ensures the movement of the adapter sleeve 4th and the pressure sleeve 7 making sure that the buffer sleeve 17th towards the shut-off valve 10th is moved. The release spring 18th excited, which also ensures that the release process of the oxygen lance tube 2nd is relieved after completion of the work. The so-called pipe stop 19th , shown more clearly in 4th , results in a precise and, in a sense, guided fit of the inserted oxygen lance tube 2nd .

Then when the oxygen lance tube 2nd should be clogged by slag or similar oxygen gas is still inside the lance holder 1 what can be easily removed. About that in the pressure piston 14 trained longitudinal bores 20 and the ventilation duct 21 the oxygen gas then present becomes the outside 22 of the lance holder. Between the pressure piston 14 and the outer wall of the oxygen lance tube 2nd is a seal 24th arranged, which is not important for the sequence of movements described above.

Between the actual lance holder 1 and the slag return safety device 40 is the shut-off valve 10th arranged. This shut-off valve 10th has a return spring 25th that in a sliding housing 26 is protected from the oxygen gas flowing past. This cavity created in this way 27 is dimensioned so that the return spring 25th in the collapsed state is arranged just as safely as in the relaxed state. The sliding case 26 consists of the insertable housing part 28 and the fixed housing part 29 , the housing part 28 in the housing part 29 can be pushed in. The gas flow 30th then on the entire shut-off valve 10th passed that an impairment can not take place, the pyramidal tip 35 ensures that the gas flow 30th on the said sliding housing 26 can swipe past. In the presentation after 1 is this shut-off valve 10th closed, that means no gas flow 30th exists, but much more an oxygen lance tube 2nd can be inserted to said safe position when opening the shut-off valve 10th to be pushed in. A smooth movement of the sealing part 33 This ensures that the distance in front of the sealing part 33 one over a stamp 32 held guide head 31 on the wall of the lance holder housing 3rd is passed. There is a hole extension for this 34 intended. The leader 31 only has the task of guiding, so that it is also gas-permeable, i.e. when the shut-off valve is open 10th the oxygen gas flows past or through it.

The shut-off valve housing 36 forms with the lance holder housing 3rd a unit like 1 and illustrate the following figures. It is not necessary to connect the two housings to one another by means of a screw connection, which is also possible in that the shut-off valve is a closed, advantageously assembled unit.

With the shut-off valve housing 36 and thus the entire lance holder housing 3rd the slag return protection housing is connected 41 . A screw connection is used for this 64 as well 1 is made clear.

With 40 the slag return safety device is marked, which in turn has two valves, namely the inlet valve 42 and the outlet valve 45 disposes. The inlet valve 42 can be opened by the pressure of the oxygen gas and against the force of a spring. If no more gas is drawn off, this inlet valve closes 42 automatically.

The outlet valve 45 has a heat sensor 43 that has a bracket 48 in the gas stream 30th is arranged fixed. The heat sensor 43 is with the outlet valve 45 over the jetty 49 connected via the bracket 48 so that this bowl-like outlet valve 45 is pulled from the open position into the sealing position. This process is supported by the return spring 55 . This return spring 55 is about a guide pin 54 placed around and at the center of the bowl 53 fixed.

When the heat sensor responds 43 the bowl shifts 50 of the outlet valve 45 and comes into the closed position. At the edge of the bowl 51 is a seal 56 provided so that an effective seal against the housing inner wall 52 or the bracket 48 he follows. The rim of the bowl lies in the open state 51 on the partition 44 between inlet valve 42 and outlet valve 45 close so that in the cavity 47 from the bowl 50 is formed, no gas can flow. Only when the heat sensor 43 addressed and the output valve 45 has been connected, the oxygen gas can enter the cavity 47 flow in and ensure that the as a trigger indicator 46 serving pens 59 yourself over the outside 60 of the slag return protection housing 41 Move out and indicate that there is a danger. The outside area 58 of the bowl 50 is so stable that the gas pressure taking effect here does not pose any problems. The wall too 61 of the bowl rim 51 is sufficiently stable to ensure that the outlet valve is securely seated 45 to ensure in the closed state. In 7 is the state with the pins extended 59 shown, it being clear that the bowl interior 62 or the cavity 47 is sufficiently large to accommodate the gas present 63 to open or move the pens 59 to use.

2nd shows a cross section through the actual lance holder 1 , where it is made clear that the adapter sleeve 4th with the help of the knee lever 5 or the hand lever 6 taking the pressure sleeve 7 ensures that the tension balls are used first 8th on the oxygen lance tube, not shown here 2nd be pressed. The individual compression springs are also recognizable 16 , the pressure piston 14 and the sealing ring in between 24th .

The representation of the 3rd equals to 1 only this is the front area of the lance holder 1 is shown enlarged. Here are the longitudinal holes 20 in the pressure piston 14 clearly recognizable with the vent channel 21 are connected so that harmful oxygen gas still present here can safely escape into the atmosphere. The representation after 4th shows the state in which the oxygen lance tube 2nd has reached its active position. It is together with the adapter sleeve 4th and the pressure sleeve 7 and the pressure piston 14 towards the release spring 18th shifted so far that by influencing the buffer sleeve 17th the shut-off valve no longer shown here 10th is open. The comparison of the 3rd and 4th shows that here the individual components of the lance holder housing 3rd with the oxygen lance tube 2nd are shifted so that the desired opening position of the shut-off valve 10th is reached.

The 5 , 6 and 7 are to be seen together to represent the individual work processes. The 5 shows the condition of the lance holder 1 in the rest position, that is to say before the oxygen lance tube is inserted 2nd . The shut-off valve 10th is closed. The sealing part 33 , the part of the insertable housing part 28 is located in the sealing seat, which means that it is on the inner wall of the shut-off valve housing 36 is pressed. The exact fit ensures that the stamp 32 leading head held in front 31 that in the hole extension 34 is led. Also the slag return safety device 40 is in the closed state. The inlet valve 42 prevents the inflow of oxygen gas.

6 shows the state in which the oxygen lance tube 2nd by hand in the lance holder 1 is inserted. The oxygen lance tube 2nd is up to the pipe stop 19th advanced and to the buffer sleeve 17th approach. This oxygen lance tube is via the automatic, which has already been described several times 2nd after the loose insertion into the pipe guide 11 first fixed and that by pressing the clamping balls 8th , takes place over the slopes 9 . This is the first step by moving the hand lever 6 is achieved. Will the hand lever 6 then moved further, the oxygen lance tube is now 2nd in the in 6 shown position pushed. With the mechanical displacement of the fixed oxygen lance tube 2nd there is a corresponding movement of the buffer sleeve 17th . It can be seen that this buffer sleeve is also used 17th against the force of the return spring 25th the sealing part 33 the shut-off valve 10th is lifted out of the sealing seat. The oxygen gas can flow without further hindrance, i.e. without the slag return safety device responding 40 into the oxygen lance tube 2nd flow in. The inlet valve 42 is automatically opened by the pressurized oxygen gas, as in 6 indicated.

7 finally shows the state where the heat sensor 43 has addressed. The outlet valve 55 with his bowl 50 has from the partition 44 lifted off and the cavity is created 47 or the bowl interior 62 . The oxygen gas still pending there, in the bowl interior 62 oxygen gas is now pressing the pin 59 , 46 from its seat, which until then over the bowl rim 51 in the in 5 and 6 position shown has been held. After filling the bowl interior 62 with the oxygen gas under pressure the pen 59 over the gas as already mentioned automatically moved so far that it over the outside 60 of the slag return protection housing 41 protrudes. The oxygen gas, its further supply to the slag return safety device 40 If a valve, not shown here, is also blocked, the slag return safety device can 40 no longer flow through.

All of the features mentioned, including those that can be seen in the drawings alone, are regarded as essential to the invention, alone and in combination.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 19903473 A1 [0002]
• DE 102008012554 A1 [0002]
• DE 102012004515 A1 [0002]

Claims (14)

Lance holder for oxygen lance tubes (2) with an adapter sleeve (4) which is articulated via a toggle lever (5) with a swiveling hand lever (6) and which actuates a shut-off valve (10), and a pressure sleeve (7) which is connected via adapter balls ( 8) and a bevel (9) acting on the inserted oxygen lance tube (2), characterized in that the clamping sleeve (4) and the pressure sleeve (7) connected to it with the clamping balls (8) and the pipe guide (11) of the lance holder (1) inserted oxygen lance tube (2) are designed to be displaceable together via the hand lever (6) in the direction of the shut-off valve (10). Lance holder after Claim 1 characterized in that the clamping sleeve (4) is shaped and arranged to cooperate with a pressure piston (14) which has an end stop (15) and a compression spring (16) and a buffer sleeve (17) with a release spring (17) actuating the shut-off valve (10) 18) is designed to make contact. Lance holder after Claim 2 , characterized in that the pressure piston (14) has longitudinal bores (20) which are formed in a vent channel (21) leading to the outside. Lance holder after Claim 2 , characterized in that in the pressure piston (14) a seal (24) which can be pressed onto the inserted oxygen lance tube (2) is assigned. Lance holder after Claim 1 , characterized in that the shut-off valve (10) has a return spring (25) which is arranged inside the lance holder housing (3) and has a sliding housing (26) surrounding the return spring (25) and arranged inside the shut-off valve housing (36) . Lance holder after Claim 5 , characterized in that, the lance holder housing (3) and the shut-off housing (36) are integrally formed. Lance holder after Claim 5 , characterized in that the sliding housing (26) having a cavity (27) for the return spring (25) is formed in two parts, the housing part (29) extending into the gas flow (30) on the lance holder housing (3) or on the shut-off valve housing (36 ) is fixed, while the other housing part (28) can be inserted into the housing part (29) and on the inside with a sealing part (33). Lance holder after Claim 7 , characterized in that a guide head (31) is provided at a distance from the sealing part (33), which is connected to the sealing part (33) of the insertable housing part (28) via a plunger (32) and is guided in a bore extension (34) and is gas-permeable is trained. Lance holder after Claim 5 , characterized in that a slag return protection housing (41) can be docked onto the lance holder housing (3) and is equipped with an inlet valve (42) and an outlet valve (46) with a heat sensor (43), the heat sensor (43) having one from the outside the lance holder housing (3) visible trigger indicator (46) is connected. Lance holder housing after Claim 9 , characterized in that the heat sensor (43) is displaceably arranged in a holder (48) positioned in the gas stream (35) and is connected via a web (49) to the output valve (45) which releases it in the event of a trigger. Lance holder after Claim 9 , characterized in that the outlet valve (45) with the partition (44) between the inlet valve (42) and outlet valve (45) is formed to form a cavity (47), this cavity (47) being triggered with the gas stream (30) and the trigger indicator (46) is connected. Lance holder after Claim 10 , characterized in that the outlet valve (45) is bowl-shaped, the bowl rim (51) carrying a seal (56) which can be pressed onto the housing inner wall (52) or the holder (48) and the inner bowl center (53) has a return spring (55 ) with guide pin (54). Lance holder after Claim 10 , characterized in that pins (59) are provided on the outer region (58) of the bowl rim (51) which are supported and arranged at a distance and penetrate the wall (61) of the slag return safety housing (41) and form the trigger indicator (46), which respond of the outlet valve (45) is connected to the cavity (47), that is to say the bowl interior (62) and can be displaced from the gas (63) present there to the outside (64) of the slag return safety housing (41). Lance holder after Claim 12 , characterized in that the pins (59) are connected to a warning signal system.

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