RU202192U1 - DEVICE FOR HEAT TREATMENT OF MONOLITHIC CONCRETE STRUCTURES - Google Patents

Abstract

The utility model is aimed at creating a mobile device for heat treatment of monolithic concrete structures and reducing heat loss. A device for heat treatment of monolithic concrete structures containing a housing, an electric heater, a metal shield, a fan, air ducts and fasteners, an electric heater is mounted inside the housing in the lower part and closed with a metal shield located above it, the fan is installed along the vertical axis in the upper part device and is equipped with a speed controller and an electric motor, while the housing in the lower part is connected to an air duct made in the form of a bell-shaped nozzle, and in the upper part the housing is equipped with a loop fastener for the possibility of suspending the device in the heat treatment zone of the structure.

Description

The utility model relates to a device for heat treatment of monolithic concrete and reinforced concrete structures, mainly for walls and columns, as well as for heating joints, frozen soil and concrete artificial foundations.

A device is known for convective heating of structures with formwork curtains by transferring a heat flow from a heat generator to an area bounded by a heat-insulating shelter and formwork panels.

The disadvantages of the known device are material consumption and bulkiness, significant formation of condensate, the appearance of temperature stratification of zones in the most confined space and in the body of heated concrete, which negatively affects the process of structure formation of hardening concrete. / Guidelines for heating concrete in monolithic structures / NIIZhB, M .; 2005 .-- p. 275 /.

The technical problem is to eliminate the temperature stratification along the height when the concrete is heated by air convective heating by forced mixing of warm air in a limited heat-insulated space, while reducing energy consumption by reducing the volume of heated air space adjacent to the formwork, and increasing the efficiency of heat transfer to concrete.

The task is realized in such a way that in a device for heat treatment of monolithic concrete structures containing a housing, an electric heater, a metal shield, a fan, air ducts for air supply and fasteners, according to the utility model, the electric heater is mounted inside the housing in the lower part and is covered with a metal shield located above it, the fan is installed along the vertical axis in the upper part of the device and is equipped with a speed controller and an electric motor, while the housing in the lower part is connected to an air duct made in the form of a bell-shaped nozzle, and in the upper part the housing is equipped with a loop fastening for the possibility of hanging the device in heat treatment area of the structure.

The proposed device differs from the known one in that the electric heater is mounted inside the housing in the lower part and closed with a metal shield located above it, the fan is installed along the vertical axis in the upper part of the device and is equipped with a speed controller and an electric motor, while the housing in the lower part is connected to the air duct, made in the form of a nozzle in the form of a bell, and in the upper part the body is provided with a loop fastening for the possibility of hanging the device in the zone of heat treatment of the structure.

Such a mutual arrangement of the electric heater and the fan, as well as the ability to regulate the heating temperature and air flow rate, provides an optimal temperature regime for heating the concrete of the structure.

The device is located in the upper zone of the heated air space and prevents the accumulation of heated air formed due to convection in the upper parts of the space, reduces the relative humidity by more than 20% and eliminates the formation of condensation. An axial fan sucks in heated air, forces it to move downward and directs it to the least heated zone of the heated space, which is the lower part of the structures during air heating. Thus, an air mass with a uniform temperature is formed in it, the value of which is also controlled by an electric heater installed in the air convection-ventilation heating device. Heat transfer from warm air to the formwork is carried out by convection. Further, due to the thermal conductivity of concrete, the inner layers of the structure being erected are heated. Open surfaces of heated concrete are insulated with effective heat-insulating materials, for example, thermoactive mats are used.

The technical result consists in the fact that with a decrease in heat loss due to a decrease in the volume of the heated space and insulation with heat-insulating materials, the design of the device is simplified, its weight and material consumption are reduced, its mobility is increased, as well as the possibility of quick replacement of the device in case of failure,

FIG. 1 shows a device for heat treatment of monolithic concrete structures; fig. 2-1-1 FIG. one; fig. 3 is a diagram of the arrangement of the device during heat treatment of a monolithic concrete wall.

The device contains a housing 1 made of solid steel, an electric heater 2, an axial fan 3 with an electric motor 4, a metal shield 5, a nozzle 6, a loop 7 mounted on the housing for hanging and fixing the device on a structure in the heat treatment zone.

The nozzle 6 can be made directed away from the device, as well as at a given angle. The power of the device depends on the amount of heat required for heating, which is calculated based on the volume of the heating air space, the heat capacity of the formwork system, concrete and base, the magnitude of heat loss to the environment and the efficiency of the heat-insulating material.

The body of the device for heat treatment of monolithic concrete structures is made of strong steel, equipped with a metal grate, ribbed air tubular and other electric heaters for heating the air, an axial fan equipped with a multi-stage speed controller that increases or decreases the speed of air outflow, an air outlet nozzle to regulate the air flow and its range.

The unit is suspended with bolts, hooks and secured with chains or metal cables. To avoid vibrations, the cable is installed at an angle of 90 degrees.

The main requirement for the device is to ensure a given temperature level and its uniformity over the height of the structures. For heating the concrete of monolithic structures, it is advisable to use a soft heating mode with a temperature in the range of + 25 ° ... + 70 ° C. A temperature sensor is used to control the temperature of the heater, and plug connectors are used to connect to the electrical circuit. The calculated temperature difference Δt ₀ between the temperature in the installation zone of the device and in the lower zone within the range of rational use of the device is Δt ₀ = 3 ÷ 5 ° C.

The device should be placed symmetrically and evenly over the area of the heated space. When determining the area of a room served by one device, it is recommended to comply with the condition

where l ₁ and b are the length and width of the heated zone by one device, m;

h _p.z - the height of the heated zone, m.

The device should be installed at a distance of at least 100 mm from the formwork and heat-insulating shelter.

The device works as follows. When connected to an electric circuit, electric heaters 2 transfer heat to the air flow passing through them, which moves with the help of an axial fan 3. The air flow is regulated by nozzles 6, which are arranged in the lower part of the device.

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

The proposed device for air heating of monolithic concrete and reinforced concrete structures is advisable to use for heat treatment of thin-walled structures and thermos curing of mainly ordinary monolithic walls and columns. This device can be used in conjunction with infrared heating of concrete, using waste gases, etc.

The device is manufactured in an industrial way at the factory.

Claims (1)

A device for heat treatment of monolithic concrete structures, containing a housing with a metal grate, an electric heater, a metal shield, a fan, an air duct and a fastening element, characterized in that the electric heater is mounted in the lower part of the housing and covered with a metal shield located above it, and the fan is made axial, equipped with a speed controller and an electric motor, which circulate the air flow and are installed in the upper part of the housing along the vertical axis, while the lower part of the housing is connected to an air duct made in the form of a bell-shaped nozzle, and the fastening element in the form of a loop is mounted in the upper parts of the case.

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