DE1964165C3 - Process for producing molds or mold halves - Google Patents

Description

one surrounds the shell with the pipes attached to it with formwork and thereby creates a cavity forms into which the first reinforcement material can be poured. For example, on the Base board on which the model stands, a wooden formwork be placed so that the cooling pipes protrude through the formwork. Then steel anchor rods bent and laid crosswise in the box formed so that they protrude after each rope. The bars serve two purposes, namely they form facilities for the transport of the back-lined shell and they also help anchor the shell in the second reinforcement layer. Unless the Metal scarf has been manufactured by injection molding, it is It is advisable to cover them with a water-repellent paint before starting with the first Reinforcement layer is lined. As a first reinforcement layer is particularly suitable for beion or high-alumina cement. The whole system should be shaken well so that no voids or voids remain in the reinforcement layer. After hardening the backing material separates the reinforced shell from the model. This reinforced The shell is referred to below as a cavity insert.

The next step is to work on the cavity insert /, to apply a second backing layer. The advantage of making the backfill in two stages is that cracks that may appear in the outermost layer do not go into the other jo Shift progress. If the molds are used in injection molding, the Circuit metal blocks are used for attaching the form. The dimension of the metal blocks c depends on the molding machine and the size of the molded body to be produced.

If split molds for injection molding are produced according to the method according to the invention, can the shell of the second mold half by inverting the first mold half and using the The cavity can be made as a spray tub to form the metal shell for the other half. This will be the shell coated with wax before metal spraying. When the metal is sprayed on, the The tubes attached to the shell are used for cooling during spraying. When using the forms for In injection molding, a conical hole called a sprue cone must be formed in the mold wall. In addition is precisely determined on the model material before the metal is sprayed on, which is later used to form the Sprue cone can be pierced and expanded.

Then in the same way as with the cavity insert /. Pipes and thermocouples on the second molded shell. The tubes are expediently filled with a metal Epoxy attached for good heat transfer; if necessary, the liability can through Overmolding of the pipes with metal can be improved. Then a wooden bowl can be placed around the bowl be constructed together with reinforcing rods and also a metal block are attached so that it forms an extension of the sprue block that sits on the wax. The block should be about the height extend beyond up to which the reinforcement is poured so that it is used to produce the sprue cone can be pierced. There can then be reinforcement material such as concrete or alumina cement around the shell ocoiwon, which then hardens, so that the peel is self-supporting. The concrete height should be below the top of the melall block.

A support frame must be provided for large molds, which is then connected to the backing material such as concrete is filled. The frame should have walls of sufficient height to accommodate the reinforcement material in the required depth to be supported, the pipes should be long enough so that they extend to the Extend outside of the frame. The tubes and thermocouple leads are inserted through holes in the Walls of the frame led out.

In the case of two-part molds, it is necessary to insert the second half of the mold into its reinforcement material so that that the two mold halves fit together and provide a mold cavity of the desired depth. the second mold half is inserted into a frame, which is then filled with concrete, so that this mold half on the concrete floats and is higher than its final position requires. It then becomes the first half of the mold lowered their frame on the second mold half, so that the metal shell of the second half on the required depth is pressed into the concrete. The position of the second mold half is thus determined by the position of the first half of the mold.

The invention is explained in more detail below with reference to schematic drawings.

Fig. 1 shows the model used to make the metal shell;

Fig. 2 shows the model covered with a metal shell, the metal shell with a rigid support or rear lining is provided;

F i g. 3 shows the in FIG. 2 mold half shown after lifting from the model and the Turn around;

F i g. 4 shows how that in FIG. 3 mold half shown as a model for the production of the other mold halves is being prepared.

Fig. 5 illustrates the formation of the other mold half.

According to Fig. 1 the model 1 sits on a wooden one Base plate 2, which has an angled edge 3 that wedges the metal shell onto the model. On the Cooling tubes 4 are provided on the back of the model to cover the surface of the model during spraying cool and to support the hardening of the sprayed-on metal coating. According to FIG. 2 becomes the model initially coated with a metal layer 5 by spraying, on which with the help of a metal filler Epoxy resin adhesive tubes 6 thermocouples 7 are attached. The sprayed model is then from a Enclosed circuit 8 from which the ends of the tubes and the ends 20 of the thermocouples protrude. Metallic anchoring rods 9 are bent to match the shape of the model and are inserted into the circuit used, so that after the hardening of the alumina cement 10, the mold half is lifted from the model and can be turned around according to FIG. 3, in which the mold cavity 11 can be seen.

The mold halves shown in FIG. 3 are then designated as the model used for the manufacture of the other mold half, as shown in FIG. 4 is shown. The surface the metal shell is first covered with a wax layer 12 of a thickness required for the mold cavity overdrawn. On top of the wax layer is put in place where the sprue cone will form in the mold is, a metal block 13 is arranged. It then becomes the wax-coated mold half with a metal layer 14 splashed to form the other mold half, like

you can see it from f ■ "i g. 5; it will then be at the Back of the metal layer with the help of a metal-filled Epoxy resin adhesive thermocouples 16 and tubes 15 attached. On the back of the metal block 13 is a metal block 17 attached; then a formwork 19 is placed around the edges of the molded Melallscheibc arranged and on the back of the shell alumina 18 poured, the end of the Metailblocl 17 remains free. It can then ve the second mold half the first half of the standard can be lifted off and the two halves of the standard can then be lifted together with di attached thermocouples and cooling tubes are back-filled so that they are ready for use an injection molding machine are ready.

For this purpose 3 sheets of drawings

Claims (3)

the metal shell are attached and then the patent claims: backing material is applied, by gluing the pipes directly to the metal shell 1. Method of making molds or will ensure good heat transfer, with yourself Mold halves, especially for injection molding 5 simultaneously inevitably between pipes and metal-plastics, in which one is around a model of the to peel the adhesive epoxy resin so that on The forming object a metal shell forms hollow spaces at this point, ζ. Β Avoided air bubbles and then the shell will be used to make a. It can then reinforce the rear line without danger behind, so that identification material can be applied. draws that first heating or cooling pipes io The model of the object to be shaped can be in with a metal-filled epoxy resin in any way. The model should Metal shell to be attached and then contain the expedient cooling pipes that are as close as Backing material is applied. should be on the surface if possible. Unless the 2. The method according to claim 1, characterized in that the metal shell is produced by flame spraying, draws that after attaching the tubes 15, the model with a water-soluble Ablösungsan Using a metal agent such as polyvinyl alcohol before spraying the metal shell over the pipes coating spray !. Metal sprayed. By the release agent the 3. The method according to claim 1 or 2, characterized by the metal shell when immersed in water characterized in that the metal shell is lifted off in front of the model; also supports the Lift off the model with a first 20 release agent to neatly lay down the initial reinforcement layer is backed up. Chen coating from the sprayed metal. Zinc is preferred for flame spraying. For the splash alloys that do not shrink much with compressed air, suitable as alloys of bismuth and tin. This The invention relates to a method for producing an accurate reproduction of the model-making technique of molds or mold halves, especially surface. Has a flame-sprayed zinc bowl for injection molding of plastics, in which a thickness of at least 0.1 cm. With the flame fuel model the object to be formed is a metal shell, aluminum is still a usable material, Ie shapes and then the shell to manufacture one because it is lighter, less prone to cracks and with one Reinforcement behind. 30 high rate, i.e. metal shelf sprayed on per minute It is a method of making molds. The shell has a known aluminum, in which the heating pipes in a layer of metal thickness between 0.2 cm and 0.1 cm.
Metal powder can be embedded, whereby the Metallp'ul- The metal shell can also by electrolytic ver is bound with synthetic resin. The layer is precipitated by casting metal, by molding then backed with concrete (GB-PS 9 00 570). The so 35 are formed from sheet metal. Any metal from which Manufactured molds, however, can withstand the high pressures a shell can be molded around the model did not stand during injection molding. use yourself. It is also known for making molds. After making the metal shell are on the to mold a metal shell from a model and the back of the metal shell made of copper then to back-feed the bowl. The back lining has to be fitted with 40 tubes that follow the contours of the shell may be made of thermosetting resin that is followed to a predetermined cooling schedule. It was Increasing the thermal conductivity of a metal powder found that when the tubes mean can be added (DT-PS 9 01 240). metal-filled epoxy resins ah the metal shell The backing is especially necessary in order to allow it to be attached to the mold during the injection molding process Forces occurring during use can be effectively kept cool men can be. Especially in injection molding, where it can, as the metal-filled epoxy resins have a special mold They are quickly heated or cooled down and there is good heat exchange between the mold walls must so that the injected material solidifies and a coolant flowing in the pipes gene is the thermal conductivity of the back lining. In an alternative embodiment tion made of hardenable plastic, the metal powder s °, the pipes can be filled with metal-filled epoxy resin in was mixed in, too small to add heat or to fix its position and then further to dissipate. Therefore, additional pipes for a metal spraying to cover the pipes on the circulating fluid can be provided. The shell will be securely attached. If necessary, you can However, the arrangement of such tubes creates the risk of thermocouples being attached to the metal shell the formation of voids in the back lining 55 this has the advantage that this is in immediate! the metal shell. However, they are located near the mold surface. The metal shell wire Metal shell hollow places, the shell is backed at this point with a reinforcement material. The Ar not sufficiently supported so that it depends on the type of de under the high of the reinforcement material occurring pressures can fail or tear. Use the shape. In the case of injection molding Pressures, as they are especially when using sclcher 60 drive, a considerable increase is necessary because d'n Forms for injection molding occur. Form has to withstand high pressures. Bc The object of the invention is to provide a method of the other molding operations, for example in the Formbla type described at the outset, that with sen, it is not so important that the shape is so strong. E safety, the formation of cavities in the immediate has proven to be appropriate to use the metal scarf neighborhood on the back of the metal shell and 5, a first Vcrstärkungsschicht so that di prevented. Bowl lifted off the model without difficulty This object is achieved in that initially heating and can be easily conveyed. The first Vcrstäi or cooling pipes with a metal-filled epoxy resin to kungschicht is expediently formed because