EP2252711B1 - Lance holder - Google Patents

Description

The invention relates to a lance holder for lance tubes used in particular in the metallurgical and steel industry, in particular with a clamping head, which has a fixing part and a clamping part displaceable thereon, the clamping part being associated with a sealing sleeve which clamps the inserted lance tube and thus can be influenced via the fixing part Rear fire, and / or a check valve is arranged downstream.

Lance holders with a clamping head, in particular those with a slag-back protection or a burn-back fuse, serve to protect e.g. To keep fresh or separating / burning or melting or blowing required lance tube safely. On the other hand, the said fuses serve, for example, not to allow the slag to return to oxygen access when the blowing process ends or is interrupted.

After DE 23 27 595 C a gas-permeable disc made of sintered metal is arranged just in front of the oxygen hose, which prevents the slag return. This mechanical shut-off of the slag return does not always meet the demands made, especially when larger amounts of oxygen must be enforced, because then a sintered metal disc naturally leads to difficulties. In this case, the upstream valve assembly also assumes a kind of slag return flow safety function, this valve closes when the seal arranged above is burned due to the slag return.

It is known from this DE 24 47 723 B a mutually displaceable poppet comprehensive return flow protection, with an on Contact with the slag melting fuse a poppet is pressed into the sealing surface, so as to prevent the flow of slag and at the same time also the further flow of oxygen. Held is a lance tube inserted into the lance holder via a clamping head with a collet arranged therein. By means of this collet, the inserted lance tube in the lance holder is determined by influencing the teeth of the collet. Behind this collet, a sealing sleeve is arranged, which is influenced by the inserted tube and thereby deformed so that it rests close to the outside of the lance tube. This tight application by deforming the sealing sleeve has the disadvantage that it may happen that the sealing sleeve cakes on the lance tube, so that when opening the collet, the rest of the lance tube can be removed only with difficulty or only by entrainment of the sealing sleeve. This problem and the special design of the collet brings with it the disadvantage that the respective lance holder must be adjusted with respect to its diameter pretty much the diameter of the inserted and to be held lance tubes.

Also from the EP-A-0 372 099 , of the US B1-6,171,545 and the GB-A-1 534 241 are comparable lance holder, refer to.

Currently, lance holders are in use that can accommodate and fix inch tubes as well as those that can accommodate metric-dimensioned lance tubes. Only very small tolerances by the movements of the collet and ultimately the sealing sleeve are possible, usually in the range of about 0.2 mm. As these lance tubes are consumables, factories are ultimately forced to buy both inch and metric pipe diameters, which causes problems for the workforce because they usually rely on lance holders accepting only a few pipe diameters. This leads to the fact that it always comes back to damage and accidents, because when operating with the inserted too small or too large diameter for fixing and sealing important items of the lance holder are damaged, so then the Lance holder is no longer functional. Since oxygen is introduced into the melt with these lance tubes and the lance tubes generally have to be bent, in particular when the lance tubes are slipping out or in the case of other problems, the operating crew can become dangerous. Even if the operating team has secured itself by suits and helmets, unfortunately, this is for the liquid steel is not sufficient protection, so it always comes back to injuries and impairments.

The invention is therefore based on the object to provide a lance holder, which is simultaneously fully operationally safe and usable for lance tubes as many dimensions.

The object is achieved according to the invention in that the fixing part is equipped with a run-on slope in which at least a single pressure element or distributed over the circumference at least two individual arranged at right angles to the longitudinal axis of the inserted lance tube sliding pressure elements is arranged / are all at the same time the pressure part having a clamping part can be influenced.

With the help of such a trained lance holder, it is first possible to hold the inserted lance tube accurately and safely, in particular rotationally fixed when pressing the chuck or here especially the clamping part which is pushed onto the fixing part, by being fixed on the pressure elements, in particular at several points whose number corresponds to the number of printing elements. This ensures that once inserted lance tube can only be removed from it by deliberately pressing the clamping part. During the entire operation of the lance holder, the lance tube is securely fixed, which can be protected from caking by further optional measures, which are described later, the sealing sleeve itself and is also equipped with a diameter that allows the use of different sized lance tubes. The scope of different lance tube diameter is limited by the run-up slope and the corresponding trained clamping part, but a substantial reduction of the lance holder sizes is possible. The tolerance range is increased by the inventive design to about 0.5 - 3 mm depending on the structure of the lance holder. As a result, the number of lance tubes currently in use, for which a large number of lance holders were previously tailored to the respective measure, can now be reduced to six to seven. This is made possible by the fact that, when inserting the largest lance tube provided for the respective lance holder, the displaceable pressure elements become immediately active and effective, while in the case of a lance tube having a smaller outer circumference the fixation is still possible because the displaceable pressure elements then only after a corresponding displacement path take effect and fix the lance tube.

According to an expedient embodiment of the invention, it is provided that the pressure elements are designed to generate a punctiform or linear load pressure on the inserted lance tube. Thus, pressure elements are used which do not press surface on the lance tube, but point or line, so that a higher and more targeted pressure or load pressure can be generated. Here, the embodiment can be chosen such that the pressure elements generate a local elastic or plastic deformation in the peripheral surface of the lance tube, whereby not only a force or friction but also a positive connection of the pressure elements can be achieved with the deformations generated.

As printing elements cylindrical pins with at least one side pointed, cut-like or crowned end or as balls can be used. It is advantageous if the pressure elements are designed as balls, whereby the mentioned point-shaped load pressure can be selectively generated, the lance tubes usually made of mild steel, so for example ST37, while the balls are made of hardened material and thus ensuring a long service life.

A particularly uniform and secure fixation of the lance tube in the lance holder is given when evenly distributed over the circumference at least three pressure elements are arranged in the form of balls in the run-on slopes of the fixing part. In this case, bores are expediently provided in the starting bevel, through which the respective ball can be pressed onto the surface of the lance tube, specifically from the pushed or displaced clamping part. For this purpose, the clamping part has, as mentioned above, a corresponding pressure bevel, which runs uniformly, so that it is ensured that the at least one ball, preferably all balls can be moved simultaneously in their holes on the inserted lance tube to keep this safe and so permanent to fix. The said holes may be designed in one embodiment so that they each have an inner free area in which a ball is freely displaceable, wherein at least the mouth region of a bore facing a lance tube, or in the interior of the fixing part to the inside in the hole pointing projection, eg a projecting circumferential collar which reduces the diameter of the bore at the mouth region to a dimension smaller than the ball diameter, so that a ball is mounted captive in the fixing part. Also at the mouth to the run-in an equivalent projection or collar may be formed. A fixing part can thus form a ball cage, in which the balls each have a limited movement play. Such a projection may e.g. also be produced in the manufacture of the fixing after inserting the balls by local plastic deformation.

Earlier it has already been pointed out that in the present invention, in a possible embodiment, deformation of the sealing sleeve in the longitudinal direction can be dispensed with in order to reliably prevent caking. For this purpose, the use of a larger diameter than the lance tubes used for use having sealing sleeve is provided, wherein According to the invention, the fixing part in this embodiment has an insert wedge insertable between the outer wall of the sealing sleeve and the surrounding protective housing. This approach wedge acts on the sealing sleeve and ensures that it applies sufficiently tight against the outer wall of the lance tube and ensures a secure seal. If the fixing part with its attachment wedge is then withdrawn when it is loosened again, then the sealing sleeve is relieved, can deform back and detach from the residual lance tube, so that it can easily be removed from the lance holder. The sealing sleeve is no longer deformed in its longitudinal direction, but pressed over the approach wedge targeted to be held and sealed lance tube z. B. in the radial direction.

A displacement of the clamping part on the fixing member is carried out in a possible embodiment advantageously in that the clamping part of the clamping head is surrounded by a clamping sleeve which is displaceable on the external thread of the protective housing and equipped with a arranged between the top wall of the clamping part and the clamping wall of the clamping sleeve ball bearing is. By the ball bearing between the clamping sleeve and the clamping part, the friction occurring is reduced when moving the clamping part. This makes it possible with little effort to postpone the clamping part accordingly to the fixing part and thus to influence the pressure elements, in particular the balls and impose on the pipe wall.

This process is carried out by simply turning the clamping sleeve, which can be facilitated by roughened gripping surfaces and the like this rotation. The lance tube must be sufficiently far, ie pushed through the sealing sleeve into the lance holder to the stop. In particular, to ensure this is provided that between the sealing sleeve and burn back a gas flow blocking check valve with Lanzrohranschlag and beyond the burn-back on the gas flow, actuated or responsive check valve is arranged in the protective housing. With the insertion of the lance tube into the lance holder, the operation So be taken up only when the lance tube is inserted sufficiently far and has unlocked the check valve. Then the gas flow, in particular the oxygen flow is released, which opens the check valve, so that now the gas flow or the oxygen can flow through the entire protective housing of the lance holder and then through the lance tube.

In order to be able to separately install or also to be able to service downstream parts of the actual lance holder, the invention provides, in a further development, for the backfire protection with the check valves to be associated with a safety housing detachably connected to the protective housing. The safety housing may be formed integrally with the lance holder or be screwed as a separate part with this.

Earlier it has already been pointed out that the number of required sizes of the lance holder can be substantially reduced by the lance holder according to the invention. According to the invention, it is provided in a possible development that fixing part, clamping part and sealing sleeve tube tolerances of 3-4 mm for metric tubes and at the same time for inch tubes permitting group dimensions are formed having formed. This makes it possible, as already mentioned above, to make do with a total of about seven or fewer holder sizes, while today more than 15 such holder sizes must be taken into account in order to enable safe operation of the lance holder.

For lance keepers of any kind, regular maintenance is advisable and usually required for safety reasons. To be able to comply with the intervals exactly and to be able to ensure even with changing operating teams still a proper operation, the invention provides that then the housing or a housing part of the lance holder suitable for data storage chip, for. B. RFID chip is assigned. For example, in a one-piece design, the partial housing of the closure piston having the check valve may be a chip suitable for data storage or in multi-part training each protective housing to be assigned a chip. This chip is preferably formed so or provided with information that, if necessary, this information can be retrieved to both the type and the first time as the length of the operating time u. Ä. to be able to call on demand.

Known chips are generally not used in the field of metallurgical and steel mills, if only because here often high temperatures prevail, but other pressures occur. In order to ensure the use in this area, the invention provides in a development that the chip has a metal housing having a thread on the side, in particular a metal housing with external thread, which arranged with the internal thread in the housing, part housing or protective housing Bore corresponds. This thus protected against external influences housing can also be placed in a convenient manner so that it can be read out safely, but beyond that is practically unaffected by external influences. The screwing into a corresponding hole is not very time-consuming and makes it possible to arrange this chip in each case where it can be read particularly well and where it is housed well and safely. In addition, the chip is so interchangeable.

In order to avoid that the data recorded by the chip are rendered illegible by external influence or, for example, can not be retrieved, the invention provides in a development that the chip has a battery-free transponder which can be addressed and activated via a reading device. This transponder is equipped with a corresponding antenna and ensures that the necessary energy can be given up via the reading device, in order then to retrieve and evaluate the stored data and information via the reading device or the reading device.

The identification of the chips is facilitated in a further developments in that the metal housing with the transponder on the visible side has an identifier, which also still expediently a notch here are about which the screwing of the metal housing is facilitated in the associated bore. The tag located on the visible side makes it easy for the user to find the chip and activate the transponder and remove the corresponding data.

Lance holders of any kind must be supplied free of grease to the steelworks or the steelworks. The problem is that even after a relatively short service life over the gloves of the operating team or other influences but again deposits grease on the housing of a lance holder. This is associated with hazards because the fat or the other components tend to inflammation and thus endanger the workforce. To ensure safe handling of the lance holder according to the invention, the housing and / or attachments on the housing, so in particular the protective housing and the safety housing, provided with a continuous, and fat-repellent nano-coating. About the nano-coating is achieved that any incident subsequently harmful substances or fat constituents do not settle or settle on the surface of the protective housing of the lance holder. Instead, they bead off and thus ensure that the lance holder is kept free from such harmful substance constituents or keeps itself free and can be handled safely.

According to a development, it is provided that the nano-coating also applied the roughened grip surfaces with covering, z. B. is vapor-deposited, it being ensured by the vapor deposition that a sufficiently thick nano-coating covers the entire areas to be protected. Although additional costs are associated with the application of nanocoatings, the effect is very important, especially as it has to be booked on the safety side in particular. A secure application of the nano-coating on the lance holder according to the invention and permanent adhesion is achieved in that the gripping surfaces and the entire surface of the lance holder, in particular of the protective housing, part housing and rotary ring before Steaming thoroughly, preferably cleaned by ultrasound. After the appropriate cleaning, the nano-coating is applied to the clean surface, so that a completely protected lance holder can be made available.

It is advantageous if between the burn-back fuse and the responsive by the gas flow check valve lever protection is arranged in Totmannanordnung, the hinged operating lever for actuating the check valve has a spring for automatic return of the operating lever in the closed position.

An additional protection for a planned back fire protection is achieved according to the invention in that the Rüchbrandsicherung or the slag return fuse is preceded by a valve disc which is slidably formed with the inserted lance tube against the force of a spring. This valve disc is an additional safeguard, which is advantageous for particularly problematic applications.

Earlier it has already been pointed out that the lance holder can only be put into operation if the lance tube is inserted far enough into the lance holder. Then, the non-return valve is opened at the same time with the inserted lance tube, which can be ensured in particular by the fact that the lance holder has a lance tube stop, which is associated with a thrust sleeve, which tapers towards the center and then designed to the control valve again widening on the latter acting. This special shape makes it possible to design the lance tube stop sufficiently stable even with tubes of different diameters and thus to ensure that it is always moved so that the control valve arranged behind it is opened or closed even with the reverse movement.

Too wide opening of this check valve by too far displacement of the sliding sleeve is avoided by the thrust sleeve during Insertion of the lance tube against a safety stop of the protective housing slidably disposed and formed. When this safety stop is reached, the user is visibly reached the optimum position and he does not need to continue to push the lance tube into the lance holder. Even if he makes an effort, but this safety stop ensures that damage to the lance tube stop with the push sleeve does not occur.

Further ahead, it is determined that the pressure elements can be influenced simultaneously, it being advantageous if all are simultaneously displaced radially inwardly over the clamping part.

The invention is characterized in particular by the fact that a lance holder is provided which can be used both in the metallurgical and in the steel industry, without an unnecessary danger to the operating crew may occur by possibly incorrect operation or handling. On the one hand, the inserted lance tube is optimally fixed in the lance holder, at the same time ensuring that during operation the lance tube is always pushed far enough into the lance holder, namely to the end stop. In this preferred embodiment, upon reaching the end stop or shortly before, the non-return valve closing the inflow of the gas is opened and the gas can flow through the lance holder into the lance tube previously secured and sealed in the lance holder.

The necessary sealing of the lance tube is carried out in a preferred embodiment no longer by a deformed in its longitudinal direction sealing sleeve, but rather in that the sealing sleeve is pressed over a neck wedge, in particular the at the inner end of the fixing member, is uniformly and safely suppressed to the lance tube. This attachment wedge can be designed as a pipe end that tapers in the wall thickness, in particular at the inner end of the fixing part, which is enlarged in diameter relative to the region freely permeable to a lance pipe, in particular such that its outer diameter matches the outer diameter of the sealing sleeve is equal to or greater. This gives the possibility to use sealing sleeves with a larger diameter than the outer diameter of the lance tubes. The targeted training of the clamping head with displaceable perpendicular to the longitudinal axis of pressure elements, in particular in the form of balls also ensures a punctual application of the load pressure and thus optimal fixation of the lance tube within the lance holder. This ensures that the lance tube can not rotate in the lance holder, wherein the lance tube is fixed by the clamping head and the sealing sleeve, but just by the clamping head so sure that turning the lance tube in the lance holder is safely turned off. The bent for the introduction of oxygen into the molten liquid lance tubes can be kept safe and by turning lance tubes no danger can occur.

Further advantages are associated with the chip holder associated with the lance holder and the nano-coating, in particular with regard to safety. The new lance holder makes it possible to use lance tubes with different tube diameters with one and the same lance holder. Tube tolerances of 3-4 mm are safe to handle. The lance tubes can be easily removed. The sealing sleeve no longer tends to cake.

It is advantageous in a further development that the oxygen can not flow when the lance tube is not inserted to the stop. The lance holder as a whole has a significantly reduced weight and very compact dimensions. The clamping head is preferably hardened and can thus provide long service life. It is also advantageous that the lance holder can be easily assembled and disassembled and that, as already mentioned, it can have a chip which contains a great variety of information and data. The targeted execution of the downstream components an oxygen passage in optimal size is possible. The burn back protection can be used for a wide variety of lance holders. Only lance holders for 23 to 26 and 26 to 29 mm tubes require a special size. These Return fire protection is advantageously arranged securely and can no longer be damaged by the inserted lance tube.

Figur 1

einen erfindungsgemäßen Lanzenhalter,

Figur 2

einen Chip für Lanzenhalter in Draufsicht.

Further details and advantages of the subject invention will become apparent from the following description of the accompanying drawings in which a preferred embodiment with the necessary details and individual parts is shown. Show it:

FIG. 1

a lance holder according to the invention,

FIG. 2

a chip for lance holder in top view.

FIG. 1 shows a lance holder 1 in section. In this lance holder 1, a non-illustrated lance tube can be inserted to be set therein. The fixing takes place via the clamping head 3, which here comprises a fixing part 4 and a clamping part 5. This clamping head 3 is followed by a sealing sleeve 6, which is formed, or can be deformed so that it tightly surrounds an inserted lance tube and ensures in that the introduced gas (gas flow 27) flows precisely through the lance holder 1 without allowing any leakage currents.

Behind the sealing sleeve 6 9 and 10, a burn-back fuse 7 is housed in the protective housing, which is in principle a known burn-back fuse 7.

The clamping head 3 comprises the fixing part 4 with a run-on slope 13 in which pressure elements 14 in the form of balls 15 are accommodated. Distributed over the circumference there are preferably three such balls 15 which are accommodated in holes in the run-on slope 13, so that they can be moved at right angles to the longitudinal axis 16 of the lance holder 1. This movement takes place via the clamping part 5, which is equipped for this purpose with a pressure ramp 17. With displacement of these pressure ramps 17 in the direction of the sealing sleeve 6, the balls 15 are thus influenced so that they press point-like onto the inserted lance tube and thus ensure that the lance tube is completely fixed and also fixed against rotation fixed in the lance holder 1. With the postponement Since the fixing part 4 is equipped at the inner end with a necking wedge 19, this is accordingly between the protective housing 9, 10 and the outer wall 8 of the sealing sleeve 6 pushed in, whereby the sealing sleeve 6, which is correspondingly thick-walled, is pressed onto the outer wall 8 of the lance tube and seals here. Due to this pressure in the direction of the lance tube caking on the lance tube is excluded with the utmost security, because at least no significant deformation takes place in the longitudinal direction of the sealing sleeve 6. A further advantage is that here sealing sleeves 6 can be used with a larger inner diameter, so that lance tubes with different diameters can be used and sealed, of course, within the intended tolerances.

The displacement of the clamping part 5 or its pressure bevel 17 via a clamping sleeve 20 which is rotatable on the external thread 21 of the protective housing 9 and thus displaced. This displacement is smooth and even, because between the top wall 22 of the clamping part 5 and the clamping wall 23 of the clamping sleeve 20, a ball bearing 24 is arranged. As already mentioned, a uniform movement is achieved and a reduction of the friction is connected.

When inserting the lance tube into the lance holder 1, it is to be ensured that the check valve 26 can be opened by the clamping part 5 only when the lance tube has been inserted sufficiently far. This is ensured via a lance tube stop 28, which has a special shape and is associated with a sliding sleeve 92. This push sleeve 92 has a middle ring and bevels 93, 94, so that a total stable training results, which also allows tubes with different diameters. This push sleeve 92 acts on the approach of the check valve 26 and opens it until the safety stop is reached. Further displacement of the sliding sleeve 92 and also a further opening of the Check valve 26 are thus prevented.

The FIG. 1 shows an arrangement in which the downstream check valve 30 is opened by the pressure of the gas flow 27, without an opening valve is shown. However, this opening can only take place when, as described further above, the check valve 26 is open and the lance tube is inserted sufficiently far.

With regard to the necking wedge 19, it should additionally be pointed out that not the fixing part 4 is displaced with the necking wedge 19, but conversely the entire tensioning sleeve 20 shifts and then ensures that the necking wedge 19 between the outer wall 8 of the sealing sleeve 6 and the protective housing 9 can be pushed into it. Next shows FIG. 1 in that the burn-back fuse 7 with the two non-return valves 26, 30 are assigned to a separate safety housing 31 in order to facilitate maintenance work or other work here as well.

FIG. 2 shows a suitable for data storage chip 47, which has a metal housing 48 having a thread 52 laterally. Via the thread 52 of the chip 47 in the protective housing 9, 10 or the security housing 31 can be screwed. The chip 47 has an activatable transponder, which is addressed via a reading device. On the visible side 49 of the metal housing 48, in which the chip 47 is arranged protected, an identifier 50 is attached.

With regard to all embodiments, it should be noted that the technical features mentioned in connection with an embodiment can not only be used or are used in the specific embodiment, but also in the respective other embodiments. All disclosed technical features of this invention description are to be classified as essential to the invention.

Claims (21)

1. Lance holder for lance pipes employed in particular in the iron and steelmaking industries with a clamping head (3) that has a fixing part (4) and a clamping part (5) that can be moved on this, whereby a sealing sleeve (6) that clamps the introduced lance pipe and thus seals it and can be influenced through the fixing part (4) is allocated to the clamping part (5) and whereby a backfire safety device (7) and/or a non-return valve (30) is subsidiary,
   characterised by the fact
   that the fixing part (4) is fitted with a run-up slope (13) in which at least one pressure element or at least two single pressure elements (14) distributed over the circumference that can be moved at a right-angle to the longitudinal axis (16) of the inserted lance pipe is/are arranged that can all be influenced at the same time through the clamping part (5) that has a pressure bevel (17).
2. Lance holder in accordance with Claim 1,
   characterised by the fact
   that the pressure elements (14) are formed to generate a punctiform or linear load pressure on the inserted lance pipe.
3. Lance holder in accordance with one of the preceding Claims,
   characterised by the fact
   that the pressure elements (14) are formed as cylindrical pins with at least one one-sided pointed, bezel-type or spherical ends or as balls (15).
4. Lance holder in accordance with one of the preceding Claims,
   characterised by the fact
   that at least three pressure elements (14) in the form of balls (15) are arranged in the run-up slopes (13) of the fixing part (4) distributed evenly around the circumference.
5. Lance holder in accordance with one of the preceding Claims,
   characterised by the fact
   that the fixing part (4) has a starting wedge (19) that can be slid between the external wall (8) of the sealing sleeve (6) and the surrounding protection housing (9).
6. Lance holder in accordance with one of the preceding Claims,
   characterised by the fact
   that the clamping part (5) of the clamping head (3) is surrounded by a locking sleeve (20) that can be slid on the external thread (21) of the protection housing (9) and is fitted with bearing in the form of a ball bearing (24) arranged between the top wall (22) of the clamping part (5) and the clamping wall (23) of the locking sleeve (20).
7. Lance holder in accordance with one of the preceding Claims,
   characterised by the fact
   that between sealing sleeve (6) and backfire safety device (7) a non-return valve (26) that blocks the gas flow (27) with a lance pipe stop (28) and on the other side of the backfire safety device (7) there is a non-return valve (30) that can be activated or addressed by the gas flow (27) in the protection housing (9).
8. Lance holder in accordance with Claim 7,
   characterised by the fact
   that the backfire safety device (7) with the non-return valves (26, 30) is allocated to a safety housing (31) that is connected detachably to the protection housing (9).
9. Lance holder in accordance with one of the preceding Claims,
   characterised by the fact
   that fixing part (4), clamping part (5) and sealing sleeve (6) are formed to permit pipe tolerances of 3-4 mm for metric pipes and at the same time group dimensions for inch pipes.
10. Lance holder, in accordance with Claim 1,
    characterised by the fact
    that a chip (47) that is suitable for storing data is allocated to the housing or a housing part of the lance holder (1).
11. Lance holder in accordance with Claim 10,
    characterised by the fact
    that with a single-piece design a chip (47) that is suitable for storing data is allocated to the part housing of a sealing piston with a non-return valve (26) or with a multi-component design a chip (47) can be allocated to each protection housing (9, 10, 31).
12. Lance holder in accordance with Claim 10,
    characterised by the fact
    that the chip (47) has a metal housing (48) that has a thread (52) at the side that corresponds to the internal thread of a drill hole located in the housing, part housing or protection housing (9, 10).
13. Lance holder in accordance with Claim 10,
    characterised by the fact
    that the chip (47) has a batteryless transponder that can be addressed and activated through a reading device.
14. Lance holder in accordance with Claim 12,
    characterised by the fact
    that the metal housing (48) with the transponder has an identifier (50) on the visible side (49).
15. Lance holder in accordance with Claim 1,
    characterised by the fact
    that its housing and/or parts built onto the housing, that is above all the protection housing (9, 10) and the safety housing (31) as well, is provided with a continuous grease repellent nanocoating.
16. Lance holder in accordance with Claim 15,
    characterised by the fact
    that the nanocoating (53) is applied to cover the roughened grip surfaces (54) as well.
17. Lance holder in accordance with Claim 1,
    characterised by the fact
    that lever protection in a deadman device is located between the backfire safety device (7) and the non-return valve (30) addressable through the gas flow (27), whereby the hinged operating lever for operating the non-return valve (30) has a spring for the self-activating return of the operating lever to the closed position.
18. Lance holder in accordance with Claim 1,
    characterised by the fact
    that a valve disc is placed before the backfire safety device (7) or slag backflow safety device that is designed to be movable with the introduced lance pipe against the force of a spring.
19. Lance holder in accordance with Claim 1,
    characterised by the fact
    that the lance holder (1) has a lance pipe stop (28) that is allocated to a centring sleeve (92) which is formed tapering to the middle and then widening again to the non-return valve (26) and influencing the latter.
20. Lance holder in accordance with Claim 19,
    characterised by the fact
    that the centring sleeve (92) is arranged and formed to be movable against a safety stop of the protection housing (9, 10) when the lance pipe is inserted.
21. Lance holder in accordance with Claim 1,
    characterised by the fact
    that the pressure elements (14) are all displaceable radially inwards at the same time by the clamping part (5).

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