CS229474B1 - Heating inserts for accelerated concrete hardening - Google Patents

Abstract

The invention solves the problem of thermal insulation of building elements in rows, eliminating the need to build stable thermal insulation chambers or use thermal insulation production pads that are not cost-effective in terms of investment and operation. The subject of the invention is that heating elements are efficiently distributed in the peripheral, thermally insulated shell. The shell has no bottom or ceiling, and may have supporting elements for the pads placed at the top. This makes it possible to alternately place heating inserts and pads in a row with a crane, while the peripheral shell of the inserts creates a thermally insulated thermal insulation chamber. The subject of the invention can be used outside the construction industry and in those sectors that also produce building elements and accelerated hardening of concrete.

Description

BACKGROUND OF THE INVENTION The present invention relates to a heater for a heater for accelerated hardening of concrete.

The hitherto known heat-sealing of concrete products in order to quickly achieve the demoulding strength and thus the release of the investment and material-intensive production pad for the next production cycle is usually carried out in two ways. Either a stable heat recovery chamber with a removable ceiling is used, into which the product shims are loaded with a crane and passed through direct steam, or the shims are designed to form a double skin into which steam is admitted. Putting the washers on top of each other creates a heat storage tank.

In the first case, it is necessary to build a stable chamber. The main drawback is the use of direct steam, so the condensate does not return to the boiler room because it is contaminated. It leaches cementitious cementitious products from concrete products and contaminated substrates and damages the surface of products. In the latter case, the manufacturing pad is very expensive to invest and operate because it passes through the vibration workstation in the production cycle, so that the vibration-proof double skin causes excessive noise due to its large open areas. steam. condensate and degrade the workplace and the surface of products. As a result, the production pads have to be repeatedly expensive to repair, that is to say, always order a few extra pads in order not to disturb the production cycle. Due to vibration, the peripheral surface of the mat cannot be suitably thermally insulated, causing heat to escape.

229 474

The essence of the heating element for accelerated setting of concrete according to the invention consists in the fact that in the thermally insulated cladding / without bottom and ceiling / heating element, heating elements transmitting heat are applied to production or supporting substrates and to products or materials thereon. or stored in them. By means of supporting elements outside the peripheral jacket of the heating inserts, they alternately stack with the washers, whereby the peripheral jacket of the heating insert completely covers the sides of the washers. This creates a stack, the last upper heating element having a thermally insulated ceiling. If necessary, fumes from heated products or materials can be extracted.

The main advantages of the relay heater are that it is not necessary to build stable chambers, significantly reducing the material and energy consumption and operating costs of production pads, which can be light and simple, designed only for static and dynamic loads. The number of heating pads is considerably lower than the pads, since they are used throughout the entire production cycle only in the heat treatment station and do not circulate the whole line. Warm air rises around the pads on the mountain, so that the last pad placed in the pad gets the highest temperature selected compared to the bottom pad, but has a lead time given by the production cycle and the number of pads in the pad. This is advantageous in order to achieve even the demoulding strength of the concrete on all backing pads. All condensate or heating fluid returns to heating without loss. Heat losses to the environment are minimal because the entire outer surface of the pack is thermally insulated during operation.

In the drawing, Fig. 1 shows an example of a cross-section of a stack and Fig. 2 shows an example of an arrangement of an invention of a heating element for accelerating the hardening of concrete, namely the plan and section along the longitudinal axis.

The heating element consists of a load-bearing circumferential sheath 11 with thermal insulation 2. Supporting elements for alternating relaying of the inserts and shims 6 are provided at the locations of the hinge pins for the crane rocker, which are provided with the same hinge pins for the rocker. Heating elements J5 with controlled thermal regime are distributed in the space of the insert. The insert has no floor or ceiling. Relaying is carried out by crane by placing the first support with the product or the material on the heating element onto the heat-insulated load-bearing base provided with the heating elements and thus continuing up to the planned stack height. The last element is provided with a thermally insulated ceiling, the gaps between the heating elements are filled with a flexible seal 2 · The outlets of the heating elements J are connected to the heat source. Disassembly of the batch is performed in reverse order.

The design of the heating element allows to accelerate the heating of products or materials in the furnace while reducing material, energy and mainly operating costs. The use of the heating element is particularly suitable for the production of prefabricated concrete in the building industry.

Claims (1)

Filler liner for accelerated concrete hardening, characterized in that it consists of a peripheral envelope (1) with thermal insulation (2), on the sides of which the supporting elements (6) for the crane rocker are placed and the heating elements (3) with controlled thermal regime are disposed and the circumference of the jacket (1) is provided at the points of contact of the lining inserts with a flexible fit fit.