FR2526705A1 - Thin walled mould cores of reinforced resin for mfg. rubber coatings - to avoid using metal cores for casting linings within vessels - Google Patents

Abstract

Moulds for producing cast polyurethane rubber coatings on metallic articles, to provide protection from abrasion, have walls made from reinforced polyester or epoxy resin by covering or lining a typical metal article, such as a storage bin, with blocks or slabs to represent the shape of the required coating. The blocks/slabs are covered with a release agent to allow a mould shell of reinforced shell, the blocks/slabs are removed to allow the one-piece core of reinforced resin to be supported on the original articles, and other like it, with a clearance delined by suitable supports or spacers. The polyurethane rubber is then cast between the article and the mould shell of reinforced resin. Cheaper and lighter than using mould cores machined from metal. Typically the shell walls are 2-3 mm thick, and sufficiently flexible to assist progressive parting from the cast rubber coating. May be used for mould shells with undercut rims and/or to suit a with convergent walls. /8.

Description

 The present invention relates to the molding by casting of polyurethane elastomer coating on metal parts.

 Polyurethane elastomers make it possible in particular to produce coatings which can resist abrasion. However, in the industry, tanks for treating small parts are used, for example, the agitation of which makes them very abrasive, hence the need to coat them with an abrasion-resistant coating. To date, rubber coatings have often been used for this purpose.

More recently, polyurethane elastomers have started to be used.

 The production of a polyurethane elastomer coating layer is carried out by casting, in a suitable mold, the two mixed reactive components. The reaction takes place at room temperature. The mold is formed, on the one hand, by the surface to be coated and, on the other hand, by a counter-mold. Currently, the counter molds are made of sheet metal, the cost of which is very high. This coat is of great importance because the tanks or hollow parts to be coated are not standard parts, but almost all different from each other. Otherwise-said, the counter-mold must be custom-built, it being understood that it can be used several times with the same part each time the coating of the latter must be made.

 An object of the present invention is to provide counter molds much less expensive than those which are currently known.

 Another object of the invention consists in providing a countermold in several parts.

 Another object of the invention is to provide a cheaper countermold, significantly lighter and more elastic than sheet metal, which reduces handling costs and facilitates demolding.

 According to a characteristic of the invention, a counter-mold is provided, the walls of which are in reinforced polyester or in reinforced epoxy.

 According to another characteristic, the walls of the counter-mold are manufactured by applying a layer of polyester or reinforced epoxy on plate models mounted in the part to be coated and coated with a release agent.

 Knowing another characteristic, for the molding operation, the counter-mold is positioned in the part to be coated by means of shims whose material is identical to the coating to be molded.

The characteristics of the invention mentioned above, as well as others, will appear more clearly on reading the following description of an exemplary embodiment, said description being made in relation to the accompanying drawings, among which:
Fig. i is a perspective view of a parallelepiped tank to be coated,
Fig. 2 is a vertical sectional view of the tank of a rig.

1, during the manufacture of the counter mold,
Fig. 3 is an enlarged view of a detail of FIG. 2,
Fig. 4 is a sectional view illustrating the manufacture of the model plates shown in FIG. 2,
Fig. 5 is a sectional view of the tank of FIG. 1, illustrating the coating molding operation,
Fig. 6 is a view illustrating a variant of the molding operation of FIG. 5,
Fig. 7 is a sectional view of a tank with a cylindrical bottom, illustrating the operation of molding the coating of this tank, and
Fig. 8 is a sectional view illustrating the manufacture of part of the counter mold of FIG. 7.

 The tank of FIG. 1 is shown in a very schematic manner. Its vertical walls 1 to 4 and its bottom 5, FIG. 2, define a parallelepiped interior volume whose surfaces must be coated with polyurethane elastomer. The flat interior faces of the walls 1 to 4 and of the bottom 5 are assumed to be metallic.

 In Fig. 2, a plate 6 has been placed on the bottom 5 and plates 7 and 8 against the walls 1 and 3, other plates, not visible, similar to the plates 7 and 8 being placed against the walls 2 and 4.

 The plate 6 is a rectangular plate of constant thickness while the sections of the plates 7 and 8 have a thickness which decreases progressively from bottom to top. As shown in Fig. 3, along the connecting edge between the plates 6 and 7, provision is made for a leave 9 in plasticine or polyester putty. Thus, seen from the inside, the surface defined by the plates 6 to 8 is continuous.

 Preferably, the plates 6 to 8 are themselves made of polyurethane elastomer. By way of example, the plates 7 and 8 are manufactured as shown in FIG. 4. On a table 10, the surface of which is inclined at an angle equal to the desired clearance angle, there is a frame 11 defining the periphery of the model plate to be manufactured. Then, the mixture of isocyanate and polyol is poured, which react to form the polyurethane elastomer. The free surface 12 of the poured mixture is obviously horizontal. The quantity of the mixture is provided so that the plate has the desired thickness, linearly variable depending on the height.

 The free surface 12 of the plate is obviously flat, while its surface 13 applied against the table 10 follows the shape of the latter. The surface 12 is intended to be applied against the bare wall of the tank while the surface 13 will be used to define the internal shape of the coating of the tank. In the embodiment shown, the surface of the table 10 is flat, but it is also possible to give it, at least partially, an undulated shape, for example. The face 13 of the model plate will therefore also have a partially wavy shape, which may be, in certain applications, preferable to prevent the parts to be treated in the tank from sticking against certain parts of its walls.

 Referring again to FIG. 2, the plates 6, 7 and 8 having been fixed as indicated above, a demolding wax is passed over their visible surfaces, then there is applied a layer of impregnating resin in polyester reinforced, for example by glass fibers , or in polyepoxides. The use of these resins is well known. The counter-mold 14 is thus obtained, which once dry can be easily removed from the mold, given the clearance angles given to the plates 7 and 8.

 In the example described in FIG. 2, it will be noted that the plates 7 and 8 exceed the level of the edge 15 of the tank.

 The next operation is the preparation of the molding. The internal surface of the tank is first treated with a printing layer, then this surface is degreased with a conventional solvent and an anti-rust primer, for example based on epoxy, is applied. The surface is allowed to dry for five to ten hours.

 Just before pouring the polyurethane elastomer, a primer is applied to the surface of the tank. Furthermore, a release agent, for example with silicone, is applied to the external surface of the counter mold 14.

 The counter-mold 14 is then replaced in the tank on shims 16, its lateral positioning being ensured by shims 17. The shims 16 and 17 have the same thicknesses as the plates 6 to 8, considering respectively the points where they are placed. . Preferably, the shims 16 and 17 are manufactured with the same polyurethane elastomer which will be used for the coating. On the edge 15 of the tank, a frame 18 is fixed, the height of which is substantially the same as that of the protrusion of the counter-mold 14 above 15.

 The polyurethane coating elastomer is then poured into the space between the tank and the counter-mold 14 using troughs which are schematically shown in 19.

 Once the elastomer has hardened, the counter mold 14 and the frame 18 are removed. In addition to the clearance angle, the demolding operation is facilitated by the fact that the walls of the counter-mold made of reinforced polyester or polyepoxide are relatively flexible. Compressed air blown between the elastomer and the wall of the counter mold easily takes off the latter.

 As an indication, the thickness of the wall of the counter-mold can be of the order of 2 to 3 mm, the polyurethane elastomer constituting the coating can be an elastomer marketed under the product name Rezolin with a commercial reference such as LAB 357, UR 267 or UR 313, depending on the hardness you want, and finally, the primer can be a product sold by Ets Routtand under the reference 2993 T.

 In Fig. 6, there is shown a variant in which the coating covers the edge 15 of the tank. In this case, instead of the frame 18, an surround 20 is encircled encircling the periphery of the tank above and below the edge 15, the surround 20 being itself maintained by an adequate strapping 21.

 In Fig. 7, another variant of tank shape is shown, the bottom 22 of which is substantially semi-cylindrical and the side walls 23 and 24 rise in approaching one another. The counter-mold usable with such a tank can obviously no longer be in a single part. In the example shown, without counting the ends, it comprises a lower part 25 and two lateral parts 26 and 27. To prepare part 25, a semi-cylindrical model is made, such as that which is shown at 28 in FIG. 8 on the inner surface of which the polyester layer 25 is applied. On the upper edges of the model 28 are provided removable strips 29 and 30 so that the part 25 has two flanges 31 and 32 facing inwards. of course, the cylinder radius of 25 must be less than the width of the opening of the coated tank in order to be able to exit 25 after molding.

 As shown in Fig. 7, the parts 26 and 27 are manufactured while the part 25 is in place in the tank, with of course the interposition of model plates between the tank and 26 and 27. To facilitate the subsequent positioning of 26 and 27 of 25, provision is made in the edges 31 and 32 of the holes into which part of the polyester of the edges 33 and 34 of 26 and 27 respectively penetrates. One then obtains under 33 and 34 small cones perfectly adapted to the holes of 31 and 32. For the molding operation, provision is also made to join the parts 26 and 27 to 25 by bolts, after having inserted a rubber seal between adjacent edges.

 For molding the lining of the tank of FIG. 7, in particular shims 35 are provided, similar to 16 and 17, some of which are positioned opposite the joint between the different parts of the counter-mold.

Claims (5)

 l) Counter-mold for the '## la-ge by casting a polyurethane elastomer coating on metal parts, characterized in that its walls (14) are made of reinforced polyester or reinforced epoxy.  2 ~ Counter mold according to claim 1, characterized in that its walls (14 or 25, 26, 27) are produced by applying a layer of polyester or reinforced oxy on plate models (6, 7, or 28 ) mounted in the part to be coated (1 to 5 or 22 to 24) and coated with a release agent.  3) Counter mold according to revcn!; Catlon 1 or 2, characterized in that, for the molding operation, it is positioned in the part to be coated by means of shims (16, 17) whose material is identical to coating to be molded.  4) Counter mold according to one of claims 1 to 3, characterized in that it is in several parts (25, 26, 27), which are produced successively, each intermediate part (25) having a flange (31 or 32) directed in the opposite direction to the surface to be coated, which rim coated with release agent forms part of the surface on which the adjacent part (26 or 27) of the counter mold is produced.  5) Counter mold according to claim 4, characterized in that each flange (31, 32) is, before the manufacture of the next part of the counter mold, pierced with a few holes.