RU100116U1 - REMOVABLE HEATER FOR HEAT TREATMENT OF MONOLITHIC CONCRETE STRUCTURES - Google Patents

Abstract

 Removable heater for heat treatment of monolithic concrete structures, including a protective outer coating bonded to each other, insulation, insulated electrical tape element, metal contact lining and fasteners, characterized in that the protective outer coating is made in the form of a fiberglass or moisture-proof plywood shield, to which a heater is attached in the form of a polyurethane foam plate, with fins located around the perimeter of the heater, and between the polyurethane foam plate and two waterproofing layers of isofol with a reflecting surface facing the electric heating element are laid on the entire heating surface with the heating element, while the metal lining, the electric heating element and the insulation are attached to the protective coating by a bolt joint located around the perimeter of the removable heater in the edges of the insulation plate.

Description

The invention relates to a device for the heat treatment of concrete in the manufacture of monolithic concrete structures, as well as for heating joints, frozen soil and concrete artificial substrates.

A device for peripheral radiation-convective or contact heating of concrete and reinforced concrete structures is known, including a protective external coating in the form of a cover, insulation, fiberglass, heating element, fiberglass, perimeter pressure strip and fasteners.

The disadvantages of the known device are material consumption and high weight (up to 30 kg), the presence of uninsulated sections around the perimeter of the thermoactive flexible coating, which leads to increased heat loss. / Manual for the production of concrete work in winter conditions, regions of the Far East, Siberia and the Far North / TsNIIOMTP Gosstroy USSR, M, SI, 1982. p.144-147.

The technical problem is to reduce energy intensity by reducing heat loss to the environment, simplifying the device, reducing weight and material consumption.

The problem is solved in such a way that in a removable heater for heat treatment of monolithic concrete structures, including a protective outer coating bonded to each other, insulation, an insulated tape electric heating element, contact metal cladding and fasteners, according to a utility model, the protective outer coating is made in the form of a shield from fiberglass or moisture-proof plywood, to which a heater is attached in the form of a polyurethane foam plate, with perimeter heating with fins, moreover, between the polyurethane foam plate and the heating element, two waterproofing isofol layers are laid on the entire surface with the reflecting surface facing the electric heating element, while the metal lining, the electric heating element and the insulation are attached to the protective coating by a bolt joint located around the perimeter of the removable heater in the fins insulation boards.

The proposed device differs from the known one in that the protective outer coating is made in the form of a fiberglass shield or moisture-proof plywood, to which a heater is attached in the form of a polyurethane foam plate, with fins located along the perimeter of the heater, and two polyurethane foam plate and heating element are laid across the entire surface waterproofing isofol layer with a reflective surface facing the electric heating element, while the metal lining, the electric heating element and teplitel attached to the sheeting by bolting, placed along the perimeter of the removable heater in a heater plate edges.

The tight fit of the side ribs of the heat-insulating layer of polyurethane foam can significantly reduce heat leakage into the environment and contributes to the uniform transfer of heat to concrete. The double layer of isofol with aluminum foil used and the calculated thickness of the heat-insulating layer provide the most complete use of the generated heat. And the use of graphite and metal-plastic electric heaters as a heater makes it possible to adjust the heating temperature in a wide range from 40 to 80 ° according to a given mode, as well as automate the heat treatment process.

The technical result is to reduce heat loss by providing thermal insulation around the perimeter of the heater, reducing weight to 4-6.5 kg and material consumption due to the materials used, as well as simplifying the design by reducing the number of prefabricated elements.

Figure 1 presents a removable heater; figure 2 - aa figure 1; figure 3 - node 1 of figure 2; figure 4 BB figure 1; FIG. 5 BB FIG. 1.

The removable heater contains a shield 1 of moisture-proof plywood or fiberglass sheets, a polyurethane foam plate 2 with ribs 3, isofol layers 4, graphite-plastic (GPN) or metal-plastic (MPN) electric heater 5 and metal sheet 6. All layers are fastened with bolt connection 7.

The thickness of the polyurethane foam board is calculated based on the coldest outside temperature of the area. The side ribs are 3-4 cm wide to accommodate the bolted joint 7.

It is advisable to use removable heaters for heating concrete of monolithic structures in the heating mode with a temperature in the range up to + 50 ° ... 80 ° C.

The removable heater is manufactured industrially in the factory.

The height of the side rib h _{br of the} insulating element 2 is equal to the sum of the height of the adopted type of electric heater 5, the insulating layer of isofol 4 and the metal sheet 6 with a thickness of 2.0-3.0 mm (h _heater + h _isofol + h _metal ). The electric heater is glued to the metal sheet 6 of aluminum or aluminum alloy. To control the temperature of the heater, use a thermal contactor, and to connect to the electrical circuit plug connectors. Bolts 7 are used to connect all prefabricated elements.

The device operates as follows.

When connected to an electric circuit, the electric heater 5 transfers heat to the freshly laid concrete through a metal sheet 6 of an aluminum alloy with a thickness of 2-3 mm. The service life of a removable heater is 8 ... 12 years.

The specific power of the heater is calculated taking into account the voltage, current, other parameters and characteristics of the heaters.

When using a removable heater for heating monolithic concrete structures, it is advisable to install it in a formwork with a metal formwork panel. In this case, the overall dimensions of the heater should correspond to the internal size of the formwork frame, as shown in Fig. 1. Removable heaters are attached to the formwork with a metal plate 9 in the conditions of the construction site as shown in Fig. 4 or with the help of a mounting bolt 7 in the factory when assembling the formwork, as shown in Fig. 5.

Claims (1)

Removable heater for heat treatment of monolithic concrete structures, including a protective outer coating bonded to each other, insulation, insulated electrical tape element, metal contact lining and fasteners, characterized in that the protective outer coating is made in the form of a fiberglass or moisture-proof plywood shield, to which a heater is attached in the form of a polyurethane foam plate, with fins located around the perimeter of the heater, and between the polyurethane foam plate and two waterproofing layers of isofol with a reflecting surface facing the electric heating element are laid on the entire heating surface with the heating element, while the metal lining, the electric heating element and the insulation are attached to the protective coating by a bolt joint located around the perimeter of the removable heater in the edges of the insulation plate.