CS239177B1 - Ferroconcrete tools with plastic surface for large-size parts' flat shaping - Google Patents

Abstract

The invention relates to reinforced concrete tools with plastic surface for flat forming of large-sized components especially explosions that are structurally converted in the form of a laminated composite, consisting of a first epoxy layer resin applied to the base plaster model coated with the separator to which it is applied another layer of epoxy-based composite colloidal 50% resin Al2O3 powder dispersed in the base component, then the layers are 2 to 10 made of glass-reinforced polyesters fabrics where before the last five layers are incorporated into the composite hobbies and fasteners they are after solidifying the composite steel mat and reinforced skeleton reinforced with iron, which after filling with fast concrete it forms a complete tool block.

Description

BACKGROUND OF THE INVENTION The present invention relates to reinforced concrete tools with a plastic surface for surface forming of large-dimensional components, in particular by explosion, which are structurally converted in the form of a laminated composite consisting of a first epoxy resin layer applied to a base plaster model coated with a separator. epoxy resin containing 50% colloidal Al2O3 powder dispersed in the base component, then 2 to 10 layers of glass fiber reinforced polyesters are applied, where prior to the last five layers, steel sockets and clips are attached to the composite to which they are attached after solidification of the composite steel mats and reinforced carcass reinforcing iron, which, when filled with high-speed concrete, forms a complete tool block.

The invention relates to a structural design of reinforced concrete tools with a plastic surface for flat forming, especially for large-dimension parts.

It is known from the state of the art that the production of large-scale tools is very difficult to implement by methods of engineering technology, therefore unconventional approaches to their production are sought, for example by dividing into smaller segments, lightly folding into frames, or wood, concrete, etc. These routes are expensive and often unsuccessful in terms of surface accuracy and roughness.

The known methods of manufacturing these large-dimensional tools according to the state of the art do not allow a complete tool construction with requirements for overall accuracy, surface roughness and the required shape and dimensions without expensive finishing tooling, especially by hand grinding and polishing.

The above-mentioned deficiencies are eliminated and the technical problem is solved by a new construction of reinforced concrete tools for surface forming of large-dimension parts, which consist in that they consist of the first layer of epoxy resin 0.5 to 1.0 mm thick, applied to the basic plaster model covered with separator. a second layer of a composite based on an epoxy resin containing 50% of colloidal Al2O3 powder dispersed in the base component, deposited on the first layer at a thickness of 0.5 to 3.5 mm, 11a which is applied with additional 2 to 10 layers having a thickness of 10 to 20 mm, reinforced with glass fabrics.

Before the last five layers, steel inserts and clips are built into the composite, to which steel mats are attached after reinforcing the composite and reinforced carcass is reinforced with reinforcing iron, which forms a complete tool block when filled with rapid-setting concrete. The laminated layer with fitted fasteners that connect the plasticized surface layer through steel mats to the reinforced concrete placed in the frame represents a minimum depth of 2/3 of the maximum depth of the modeled exit or cavity of the tool.

In the accompanying drawing, FIG. 1 is a cross-sectional elevational view of a constructional embodiment of a tool according to the invention.

A reinforced concrete tool with a plasticized surface for surface forming of large-sized components as shown in FIG. 1, consists of a first layer of epoxy resin 4 having a thickness of 0.5 to 1.0 mm, deposited on a gypsum base 1, deposited on the base plate 2 and coated with a separator 3, then of a second layer 5 of the composite on epoxy resin base containing 50% colloidal Al2O3 powder dispersed in the base component, applied to the first layer 4 to a thickness of 0.5 to 3.5 mm, to which additional layers 6 of 2 to 10 with a thickness of 10 to 20 mm are applied of glass fiber reinforced polyesters, where prior to the last five layers 6, steel inserts and clips 7 are embedded in the composite, to which the steel mats 8 and reinforcing iron reinforced carcass 9 are attached to the composite to solidify the composite. .

The laminated layer 6 with shoulder clips 7, which connect the plasticized surface layer through steel mats 8 to reinforced concrete, represents a minimum depth of 2/3 of the maximum depth of the modeled protrusion 10 or tool cavity.

According to the structure of the present invention, a tool for the flat-forming of large-dimensional components forming part of the fountain was produced and exhibited a pressure resistance of up to 200 MPa. It also showed good surface quality and abrasion resistance, where the coefficient of friction was below 0.05

The utilization of the embodiment of the reinforced concrete tools according to the invention is mainly an explosion in the field of forming large-size components.

Claims (2)

SUBJECT Explosion-proof, reinforced-concrete reinforced concrete tool for surface forming of large-dimension parts, characterized in that it consists of a first layer of epoxy resin (4) having a thickness of 0.5 to 1.0 mm, applied to a gypsum base model (1) coated with a separator (3), from a second layer (5) of an epoxy resin composite containing 50% of colloidal Al2O3 powder dispersed in the base component, applied to the first layer (4) in a rake of 0.5 to 3.5 mm, on in which 2 to 10 layers of 10 to 20 mm thickness of polyester reinforced with glass fabrics are applied, where before the last five layers are SUMMARY OF THE INVENTION The invention includes built-in steel grips and clips (7) to which, after solidification of the composite, the steel mats (8) and the reinforcing iron (9) are attached and filled with quick-setting concrete (Li) to form a complete tool block. "Second Reinforced concrete tool according to claim 1, characterized in that the laminated layer (6) with fitted clips (7) connecting the plasticized surface layer through the steel mats (8) to the reinforced concrete represents a minimum depth of 2/3 of the maximum depth of the modeled projection (10). -or the tool cavity.