DE1508945B1 - Method and device for the production of molded elements for lining block heads - Google Patents

Description

1 2

It is known, block attachments for casting molds, shows is suitable for the production of block

z. B. molds to produce from a material that the top plates. The shape consists of two parallel

mainly refractory, fine-grained stock- opposite walls 11 and 12 and

parts and a small amount of a binder form partitions 13, 14, 15 and 16. To form and that also a small amount of an organ 5 of an attachment to the hot plate becomes a niche

niches, finely divided material from z. B. fibrous on the wall 11 formed by the wall 14

Structure and possibly a small amount of and two narrow sides 17 and 18 is limited. All

contains fibrous, refractory material. It is these walls consist of a permeable material

also known, this starting material with a terial, z. B. from a network, as shown in FIG. 1 with liquid to mix and then it is shown to sit down io index 19. The network is attached to his

to bring in a permeable form, whereupon the outside by means of a framework construction 20

then is dried. The finished block attachment is hung, e.g. B. a grate 20 α or a network that

has a firm consistency if the binder has larger openings than the side walls

and the particles of the mixture together forming a network. The shape is divided by a connected are. The 15 binding 21 produced in this way, so that the parts are each separated for themselves

Block attachment has a high level of thermal insulation.

degree, low mass weight and low heat- To achieve the connection between the

conductivity. Sidewalls of the plate that are poured into the mold

It is known per se, molded bodies made of ceramic, conical molded elements are provided, which produce on the Schem material that attack the mold wall _{in an ao.} These elements are also

Form with walls made of porous material one that is permeable.

Liquid (slip) containing material is used to feed the sludge on the is filled. The porous material is then sucked up the mold wall for the purpose of spreading sedimentation, Liquid on, and it forms on the mold wall, short tubes 23 are used, which pass through the wall of the a layer of mud made of ceramic material that will step 25 model shape. The means of the tubes 23 on the is dried. It is also known that the inner wall of the mold is introduced into the mud mix hollow bodies to produce in this way, a pressure from the inner wall and / or suction by placing a porous hollow shape with one also subjected from the outside. That causes porous core is used. As the material for which the suspension liquid is formed through the mold wall plaster of paris is generally used for this. 30 is pressed while the suspension

The invention is based on the object of a liquid-suspended material on the wall

To create a process with which it is reflected in easier.

As heat-insulating, double-walled form ^ I _n this manner is formed a plate 30 as elements for coating the block heads for F i g. 3 shows. The plate has a double wall with molds and other molds are made 35 _two i walls 31 and 32, which can be through an intermediate. The invention consists in the application being space-separated. The model mold is appropriately provided with a method known per se for producing permeable side walls 13 to 16 around the ceramic hollow body by introducing walls 11 and 12 so that the space 33 is suspended in a permeable model mold and closed, with the exception of the holes for the dewatering of the suspension under pressure or suction ₄₀ through the plate passing tubes 23. This effect, until a layer of the desired thickness has been formed to achieve a substantially self-contained, moderate distribution of the material in the atmosphere. A wall 34 is thus formed on mold elements having cavities for forming the mold wall 13, and block heads are clad on it. ₄₅ mold wall 14, a wall 35 and a projection 36

The mold lying against the cast metal can be formed on the mold walls 17 and 18. On the Wall with a greater thickness than that of the oppositely conical shaped elements 22 are conical opposite ones Wall to be made. bonds formed between walls 31 and 32,

The invention is in detail by the after the plate a higher internal strength against the

the following description and the figures clarified. 50 give pressure of the cast metal when the plate

It shows is in use.

F i g. 1 is an elevation view of a model mold for FIG. 4 shows the suspension of the heating plate,

Production of a block top plate according to the Er- as shown in F i g. 3 is shown on the wall of the

Finding, mold 40. It is assumed that the

F i g. 2 shows a cross section along line 2-2 in FIG. 1, 55 heating plate made up of a number of separate plates

F i g. 3 has the same cross-section as in FIG. 2 a, which is on the inside of the mold in

Finally, an upper part made with the model mold is hung all around.

Block top plate, FIG. 5 shows another embodiment of the heat

Fig. 4 shows a cross section of a mold with a hood 41, which is not shown on the mold 40 by means of

Warming plate as shown in FIG. 3 is shown, 60 provided suspension means, such as hooks made of steel wire,

F i g. 5 a cross section of a mold wall is also suspended. In this case, the warming hood has

Another embodiment of the hot plate according to a triangular cross-section with a vertical one

of the invention, wall 42 and an inclined wall 43, these

F i g. 6 a perspective view of an upward wall at its lower end to form a wedge

dispensing device according to the invention, 65 are bound. At the top they are through a

F i g. 7 shows a cross section of the feeding device, horizontal wall 44 connected to one another. the

according to FIG. 6. Plate is here without the conical transversal

The model shape as shown in FIGS. 1 and 2 bindings 37, which are in the plate 30 according to FIG. 3 ge

shows are shown. It is, however, possible to have such connections, if necessary, also in the plate 41 to be provided. In the space 33 of the plate 30 as well as in the space 45 of the plate 41, the insulation material, preferably exothermic material through which openings 38 and 46 are filled.

The use of the invention is above for hot hoods consisting of a number of separate Plates exist, described. But it can also be used in the production of One-piece warm hoods, e.g. B. as an essay on the head of the Gießblockform with a around running support frame is arranged. Another use similar to the latter, lies in the charging of the casting molds in foundries (feeding device). F i g. 6 and 7 show a loading device according to the invention. It is cylindrical and has an annular shape Cross-section on. The wall of the feeder 70 is made up of the outer walls 71 and ao the inner walls 72 and the space 73 therebetween. In the drawn version the space 73 is separated by partition walls 74. However, the latter can also be omitted, which results in an uninterrupted annular space. In this case, the Walls 71 and 72 held together by transverse connections at the lower and upper ends. The upper end has openings 75 through the pipes for introducing the sludge during manufacture of the feeder have been formed.

As can be seen from the above, the formed element according to the invention consists of a body with double wall, which has two opposite walls. These wall parts are combined to form a whole bound and have one or more connecting elements lying between them as a piece. The two opposing wall parts can be essentially uniform in thickness. But often it is It is an advantage to make the walls that are closest to the cast metal a little thicker to accommodate the To increase the resistance of the wall against the pressure of the casting metal. This can e.g. B. can be achieved by turning the sides of the model shape downwards, which consumes the thicker wall part is like that in Fig. 2 and 3 is illustrated. In this way gravity does one more rapid sedimentation at the bottom of the mold, making the sedimentation layer thicker. It it is therefore possible to have mold walls with different permeability with regard to the regulation of the thickness to use the sedimentation layers. The layer thickness of the wall that is adjacent to the cast metal, can be 1.25 to 2.00, preferably 1.5 to 1.6 of the opposite wall. The dem Cast metal adjacent wall has a thickness of 10 to 30 mm in the execution of the in F i g. 4th shown warm insert. In other designs of thermal insulation, the thickness can be greater than that of the above limits.

The warming head according to the invention is composed of fine particles and a binder that binds the particles cohesion. At least a large part of the particles consists of fine-grained, refractory material, like olivine or quartz. In addition, a small amount of organic particles, e.g. B. from fibrous structure, such as finely divided paper pulp or wood pulp, or of cellular structure, such as Cork. The mass can also advantageously be particles of fibrous, refractory Have structure. The particle size should be such that they with the liquid suspending agent to one Mud can be stirred and then applied to a model mold for sedimentation can. The binder should be soluble or miscible in the suspension. It is added in such a concentration that that the finished hot head has the desired amount of binder. As a binder Resin glue and a synthetically produced glue are suitable.

After the carried out by the sedimentation of the substance particles in the die molding, the molded product is removed and at 120 to 200 ⁰ C, usually at 140 to 160 ° C, dried, without sintering occurs. The material is held together by the dried and / or hardened binder. The fiber material causes the cohesion.

The material is, for example, a mixture of 82 to 94% fine-grained, refractory material, 3 to 8% finely divided organic material with a fibrous or cellular structure, 1 to 8% Binder and optionally a small amount, preferably up to 5%, fibrous, refractory Materials.

The invention offers the advantage that the double walls give the insulating molded elements a very give high thermal insulation. The thermal conductivity is also reduced in this way. It is possible to add an exothermic material to the mold elements without this material with comes into contact with the casting metal. Another advantage is that all sides of the form elements can be precisely shaped for future use.

Claims (5)

Patent claims: 1. Use of a method known per se for producing hollow ceramic bodies by placing a suspension in a permeable model mold and draining the suspension under pressure or suction until a layer of the desired thickness has formed, for Production of double-walled cavities that are essentially closed off from the atmosphere having form elements for lining block heads. 2. Device for applying the method according to claim 1, characterized in that that opposing mold walls are essentially parallel and that these mold walls by means of permeable transverse walls are connected, which extend between two opposing permeable mold walls. 3. Apparatus for applying the method according to claim 1, characterized in that the opposing mold walls are connected to one another along the lower edge and diverge upwards from this. 4. Apparatus for applying the method according to claim 1, characterized in that the opposite mold walls by a Number of connections connected, separate from each other, these connecting parts are formed by conical, permeable shaped elements protruding from one of the opposite walls. 5. Application of the method according to claim 1, characterized in that the am Cast metal adjacent mold wall with a greater thickness than that of the opposite Wall is made. 1 sheet of drawings