DE1285100B - Stopper head for pouring ladle with stopper closure - Google Patents

Description

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The invention relates to a plug head difficulty by using a unitary for pouring ladles with stopper. Stopper head can be effectively overcome,

It is common practice in Martinofen steel plants to use one of relatively thermally conductive refractories a Martin oven in a body with a plug closure ver material, which has a See ladle that has molten steel in a 5 down in it from its top surface Amount of, for example, 3001 is able to accommodate, has extending recess in which a cut-off and then the molten steel in clothing made of relatively heat-insulating refractory Mold is provided by the material located in the bottom of the ladle. This will make the part Lent nozzle to be poured through, which with the help of the stopper rod, which is in the stopper head Pouring plug is adjustable, which extends with means io, against the heat of the molten steel is provided by which he is protected from opening the nozzle.

raised and lowered to close the nozzle means for attaching the plug head to the

can. The head of the pouring plug is known to be on the lower rod. For example, like this Attached to the end of a stopper rod, which is most commonly made from the lower end of the steel material consists that 'if there is a long time a stopping rod with a one piece with her excavated Exposed to temperature, disadvantageously formed radial flange be provided. It can is flowing. Stopper rods are commonly made from one piece or section of steel manufactured. As the material to be handled, the insert should be provided in the recess molten steel, there is a risk of the head being arranged around the rod in such a way that Melting or softening the steel plug rod so that it rests against the flange of the rod. Of the if they are not sufficiently against the heat of the can use the head in various ways, molten steel handling is protected. for example by means of a thread or a

The lower end of the stopper rod is to be connected in the bayonet connection. Plug head used, which is made of refractory material In a known plug head of the last made is that a certain heat insulating effect 25 called type consist of the plug head body owns. On top of the steel stopper rod are graphite and the clay lining. To a the plug head sockets made of refractory material movement of the clay lining from the graphite core, it is essential to prevent the part of the stopper rod from protruding the stopper head extends upwards, against the borrowed that the graphite body recess with a To protect heat of the molten steel. 30 recessed from its wall

Modern Martin oven systems work with additional cuts. This receding evening higher temperatures of the molten cut is preferably formed by the Stahls, and melting of increasingly larger recess at the lower end with a larger one Quantities lead to, that the stopper rod is formed a .. diameter than at the upper end, extremely high temperature during a 35 Compared to this known design is a is exposed for a relatively long period of time. Plug head of the type mentioned according to the invention

It is important that the plug head be resistive, characterized in that the lining is in the is firm against splintering and tearing, since if it is in the green or fresh state with the stopper head use fails, the molten steel is formed in an uncontrolled manner and that the body and the bar can flow out of the ladle. Around 40 linings are fired at the same time. Plug heads resistant to high temperatures According to the invention, the simultaneous

to make, they will. generally from a mixture term firing of the plug head body and the Made of fireclay and graphite, both lining a structurally uniform design are of a refractory type. However, graphite has also formed so that it is not necessary to specialize which has the property of high thermal conductivity, 45 means to provide a movement out of the and it is used in the clothing from the stopper head recess to manufacture the plug head Inter alia, prevent mixture for the purpose.

included, the thermal conductivity of the material A plug head according to the invention can

to increase the plug head, so that heat can preferably be produced by the fact that a clothes Outside of the plug head quickly to its 50 ner amount of a mass of deformable, relative Is passed inside and thereby in the plug head heat-insulating refractory material on a occurring temperature differences, the stress greater amount of a mass of deformable, relative cause a thermal cracking of thermally conductive, refractory material and cause splinters, to a minimum, these masses are compressed and reduced together will. 55 can be shaped to reduce the mass of the mass

The higher the thermal conductivity of the plug head the outer plug head with one inside it the faster the inside of the stopper heats up - its upper surface downwardly extending head, leading to the aforementioned desire to shape, and that the plug head and th result leads to temperature differences being burned into the lining, the plug head, which cause stresses, 60. Preferably, on the lining in which caused thermal cracking and splitting- the plug head recess formed relatively warm things could be minimized insulating refractory material at the same time inward the. However, this is bought with the disadvantage of protruding parts to hold an insert in the that the part lying within the plug head recess are formed. As a holding part for the the stopper rod of increased temperature and thus holding a screw insert in the recess According to another preferred design, there may be an increased risk of their melting or swelling is exposed. It has been found that the latter internal threads are formed.

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The invention is set out below on the basis of the state this is fired to the final Drawing explained for example. To generate plug head. Of course, the com-

F i g. 1 is a more or less schematic combined materials of mass 2 and mass 3 vertical sectional view of a device with simultaneously fired.

a mold and a piston for the production of a 5 After the head by means of the ram P plug head, and it shows which is shaped to the plug head, the material masses to be shaped axially down into the mold M , which has been moved in the mold removing the punch by rearranging it before rotating the piston in the mold in the opposite direction and inserting it outward; is moved so that it disengages from the

F i g. 2 is one of the F i g. 1 similar sectional view, ίο thread 8 of the head comes without damaging it however, digging into the shape over its full length.

shows the inserted piston and the flow of the before the operator the mass 3, the other

The stopper head of the material to be molded has a cylindrical shape below the access point with parallel end faces arranged essentially together with the piston and the shape, in which the shape M is shown; 15 introduces, she rounds the lower end of this by hand

F i g. Fig. 3 is an enlarged scale a little off so that this is to some extent Section of the finished plug head. down into the rounded lower end of the mold

As shown in FIG. 1 is illustrated, one is extended, which is closed by means of a conventional ejector 5 mass 2 of fireclay clay over a mass 3 from. Then the mass 2 is placed over a mixture of clay and graphite, ao mass 3, so that the positional relationship of each of these masses 2 and 3 can have generally circular parts immediately before the plug head is formed, and preferably have a cylindrical shape in Fig. 1 is shown.
both masses have the same diameter. The ram P is in one with an internal thread

Compared to the holder 10 provided with the mass 2, the mass 3 is screwed in, and the shape M is relatively large, and its axial dimension 35 is carried by a holder 11. There are known, for example, about 150 mm compared to means provided around the holders 10 and 11 relative to about 25 mm or less of the mass 2. to move towards each other. One of the keepers can

The superposed masses can be held in an upright position, while the other holder in a conventional plug head forming device can be moved towards and away from it. Be working at one. One mass 3 is formed in the shape of a plug head (FIG. 3), which holds a holder with the piston stationary and the bottom 4, a side wall part 5 and a holder in it with the shape has recess 6 formed upwardly against the piston which moves into and downwardly away from it.
When the masses 2 and 3 are in the form of M

stretches. The other mass 2 will be in the recess, as shown in FIG. 1 is shown, mung 6 is formed into a lining 7, which has an internal thread 8 in the holder 11, which has the shape M with the masses shown embodiment, relative to the holder 10 with the ram, which has an insert (not shown ) through P upwards into the one shown in FIG. 2 position shown screw engagement moved in place in the recess, during which movement the stopper can hold. The plug head is molded with a head in the manner described above. Flanged lower end of a stopper rod It is, as is known to those skilled in the art, so arranged that the flange on the surface 9 allows excess material to sit on during the liner 7 and an integral formation of the stopper head out of the mold or consisting of sections, with external threads. So excess material z. B. by provided insert, an annular gap 12 (FIG. 2) is applied to the stopper rod above its flange and step out into the inside.

thread 8 of the lining 7 of the head inserted through the ram P extends a drilling

screws to connect the rod to the head. tion 13 axially therethrough (Fig. 1). At the bottom

The outer shape of the stopper head is arranged through the bore 13, a valve 14 is arranged, which determines the shape of the form M, in which the 50 its working position the bore introduced during the BiI-superimposed masses 2 and 3 extension of the stopper head closes, which but will. A press ram in the form of a thread when the piston is pulled out of the formed bolt P is opened axially downwards against the plug head in order to let in air and move the earth mass 2 and into the mold M , to prevent the creation of a vacuum which would otherwise occur the material of the compound 3 in the shape of 55 would prevent the piston from being pulled out without deforming the plug head with the recess in the plug head,
6 pressed and the material of the mass 2 after the plug head has been formed

the liner 7 is molded. It turns out (Fig. 2), the ram P is removed by that at the end of the molding process the material he aund on the circumference by turning the recess 6 of the body on the 60 mating internal thread of the holder 10 by turning it with its external thread of the mass 2 Bottom essentially lines, is unscrewed. The holder 11 then becomes as can be seen from FIG. The lining with the shape M down to its initial position 7 is moved back in the recess of the body and the plug head formed is formed by the spot and is connected to the body in an upward movement of the ejector S from the mold M in pieces. The masses are when 65 away.

they are shaped in the manner described above, As already mentioned above, the device is from

in the green or fresh state, and according to the usual training and of the kind as previously Formation of the lined plug head in the fresh was used to form conventional plug heads.

Of course, when the masses 2 and 3 are introduced into the mold M and when the formed plug head is ejected from the mold, the mold M and the ram P are at a greater distance from each other than is shown in FIG. 15. In Fi g. 2, the shape and the piston are shown relatively closely adjacent only for reasons of crowding the drawing.

The relatively thermally conductive refractory material that forms the body of the plug head conducts Heat rapidly moves from the outside of the body to its inside, causing it to occur in the head Temperature differences that can cause stresses that cause thermal cracking and Splintering could be minimized while being relatively heat-insulating refractory lining 7 including the lower end of the stopper rod made of steel protects its flange from the heat of the molten steel. The plug head according to the invention has the advantage that when it is supplied by the factory it forms a unit and the Lining is always perfectly fitted into the head, as it is integrally connected to it. The plug head according to the invention is also cheaper than a head having separate inserts, which also increase the cost of handling, shipping, storage, etc.

Another advantage of the plug head according to the invention is that the material of the lining stronger and less brittle than the material of the actual head, reducing the danger breaking of the rod from the head is minimized.

Claims (4)

Patent claims: 1. Stopper head for pouring ladles with stopper »closure, one made of heat-conducting, fire-proof Material has existing body, which is different from its upper surface has a downwardly extending recess in which a lining made of heat-insulating, refractory material is provided, characterized in that the lining (7) in the green or fresh state with the body (4, 5) is formed and that the Body and liner are fired at the same time. 2. A method for producing a pouring plug head according to claim 1, characterized in that that a smaller amount of a mass of deformable, relatively heat-insulating refractory Material to a larger amount of a mass of deformable, thermally conductive, refractory Material is applied, these masses are pressed together and formed together, to the mass of lesser amount to the outer plug head with one in it from its the upper surface of the downwardly extending recess and that the plug head and the lining is fired. 3. The method according to claim 2, characterized in that on the as a lining in the Plug head recess molded heat insulating refractory material at the same time inward protruding parts for holding an insert are formed in the recess. 4. The method according to claim 3, characterized in that as a holding part for holding a screw insert is formed in the recess in a known manner an internal thread. 1 sheet of drawings