RU1805190C - Thermosetting formwork board - Google Patents

Abstract

SUMMARY OF THE INVENTION: A thermoset shield comprises a frame, a multilayer deck, and heating and current-carrying elements with electrical insulation located between the layers of the deck. The heating element is made of a layer of electrically conductive adhesive, for example, based on phenol-formaldehyde resin and ground, synthetic fiber. The electrical insulation is made of electrical insulating adhesive in the form of a layer with a thickness equal to the thickness of the heating element and is placed around its perimeter. 1 s.p. f-ly, 3 ill.

Description

The invention relates to construction and can be used in the construction of monolithic concrete and reinforced concrete structures. The preferred area of use of the invention in the national economy as heating elements in rooms for various purposes, in agricultural facilities (for heating air in greenhouses, in livestock buildings - rabbitries, chicken houses, etc.), in transport construction, in shipbuilding, in residential and industrial construction (for heating air in domestic premises, drying rooms during finishing works and a number of other works, as well as, as a special case, the use of thermoset Shields at concreting the monolithic structures in winter using thermosetting shields of the present invention.

The purpose of the invention is to simplify the design and increase the reliability of the shield.

The goal is achieved in that in a thermoset shield containing a frame, a multilayer deck, a heat insulating layer and heating and current-conducting elements with electrical insulation located between the layers of the deck, the heating element in contact with the deck material is made of a layer of electrically conductive adhesive, and the electrical insulation is made of electrical insulating adhesive in the form of a layer with a thickness equal to the thickness of the heating element and placed around its perimeter, as well as the fact that the thermoactive shield is made of electrical wire conductive adhesive on the basis of phenol-formaldehyde resin and insulating synthetic fibers.

These distinctive features together provide a simplification of the design and increase the reliability of the thermoactive shield due to the fact that the heating element is made of an electrically conductive adhesive, which is a workable mass evenly distributed over the dielectric surface of the wood-laminated material, which allows you to create a uniform temperature

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turmoe field on the surface of the shield and provide high adaptability in the manufacture of the structure.

When phenol-formaldehyde resin is used as an electrically conductive adhesive, ground additives of 5 to 15% synthetic fiber are used.

. A further and distinctive feature of the median invention is that the electrical insulation of the thermoset is made of electrical insulation adhesive with a thickness equal to the thickness of the heating element and is placed around its perimeter. This makes it possible to ensure electrical safety of the shield construction in connection with reliable protection of it with dielectric materials, i.e. multilayer wood-laminated material and electrical insulating adhesive, by applying a uniform thickness of the electrical insulating and electrically conductive adhesive to the wood-laminated material reliable bonding of the layers of this material.

In general, the distinguishing features of this design, in comparison with the prototype, simplify the design and provide high reliability, multiple use of the shield and safety during operation, as well as manufacturability and industry.

In the technical solution of the prototype, the electric heating element is made of conductive polypropylene with electrical conductors made of brass grids located on the front surface of the shield. . This design is more complex and low-tech in manufacturing, as well as unreliable in operation due to the insecurity of the shield surface from dynamic impacts.

The proposed thermoactive shield allows, in comparison with the prototype, to reduce labor costs in the manufacture and operation by 12-14% and increase the service life by 3-5 times.

In FIG. 1 shows a thermoactive shield in plan; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - node I in FIG. 2.

The thermally active shield consists of frame 1, deck 2 (the deck is not fixed to the frame conventionally not shown), consisting of an electrically insulating multilayer glued wood-laminated material (for example, back-reinforced waterproof plywood). In one of the layers of the deck there is an electric heating element 3 consisting of an electrically conductive adhesive. Around the perimeter

electrically conductive adhesive, electrically insulating adhesive 4 is arranged.

The current-carrying elements 5 (e.g., of a metal foil tape) are located between the layers of the deck in the same plane as the heating element. Terminals 6, consisting of pins or wire, are connected to elements 5 and electric wires 7. On the inside of the shield

a thermal insulation of 8 is established.

Thermoactive shield works as follows.

To create a specific building structure, the thermoactive switchboards are assembled together, in contact with each other by the frames 1. Next, they are electrically connected by means of a flexible power cable (conventionally not shown) of wires 7 and terminals 6 to the current-supplying elements 0 5 and electric heating elements 3.

After laying the concrete in the formwork equipment, the boards are connected to the electric circuit containing a step-down transformer and the concrete is heated by the Joule heat generated by deck 2 when electric current passes through it /

During operation, electrical protection of deck 2 from the frame 1 is ensured due to the presence of electrical insulation glue 4 in the deck structure. During the formwork operation, a uniform temperature field is created on the surface of the deck, which is maintained by thermal insulation A 8, and the temperature concrete heating mode is provided by a step-down transformer.

Upon completion,

0 dismantling of formwork panels in reverse order with their subsequent cleaning.

Thermoactive boards are technological in manufacture, reliable and easy to operate.

5 The technical effect of the proposed design of thermoactive shields compared to. A solution to the prototype is as follows: the proposed design is more technologically advanced in manufacturing due to the lack of complex shape equipment, a significant number of structural elements. The deck of the formwork panels is manufactured by industrial methods using the existing technology of laminated boards

5 plastic (for example, waterproof plywood); Higher physical and mechanical properties of the material of the formwork panels provide higher performance in operation (for example, the use of thermo-active panels made

of waterproof plywood, provides 100-150-fold turnover in connection with the possibility of using the opposite plane of the deck of shields.

Thermoactive panels can be used for concrete work year-round, since removal and installation of connecting wires does not present any difficulties.

Thermoactive panels of this design can be widely used in various fields of the national economy of the country, including: as heating elements in technological processes; in summer cottage, industrial, civil engineering; in agriculture (greenhouses, heating of livestock buildings); in transport construction: in shipbuilding, etc.

Formulas of the invention

1. Thermoactive shield. comprising a frame, a multilayer deck, an insulating layer and heating and current-carrying elements between the layers of the deck with electrical insulation, which are isolated so that, in order to simplify the design and increase the reliability of the shield; the heating element in contact with the deck material is made of a layer of electrically conductive adhesive, and the electrical insulation is made of electrical insulating adhesive in the form of a layer with a thickness equal to the thickness of the heating

element, and placed around its perimeter.

2.Shieldpop. 1, characterized in that the electrically conductive adhesive is based on phenol-formaldehyde resin and ground synthetic fiber.

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