SU1599198A1 - Chamber for damp heat treatment of ferroconcrete articles - Google Patents

Abstract

The invention relates to the production of building products, in particular for the heat-moisture treatment of concrete products. The aim of the invention is to simplify the regulation of the camera operation mode while reducing losses and simplifying the design. In the bottom part of chamber 3 there is a water basin 5, equipped with a telescopic overflow 13 and a drain with 12 tubes. Through the overflow and drain pipes 13, 12 the pool is connected to the thermos 10, and the ratio of the diameters of the overflow and drain pipes 13, 12 is at least 1.4: 1. 1 il.

Description

The invention relates to means for the production of building products, in particular for heat and moisture treatment of reinforced concrete products.

The purpose of the invention is to simplify the regulation of the operating mode of the camera while reducing heat loss and simplifying the design.

In FIG. 1 shows a camera, a General view.

The chamber consists of fences 1 and a cover 2, forming a chamber 3 for placement of reinforced concrete products 4. In the lower part of the chamber 3 a pool 5 is formed with a perforated pipe 6 located therein. The perforated pipe 6 is connected by a pipe 7, with a water-air ejector 8, a pump 9 and a thermos 10, located under the pool 5. Thermos 10 is equipped with a coil 11 for supplying a heating coolant. The bottom of the pool 5 is equipped with a drain pipe 12 and an overflow telescopic tube 13, which connect the thermos 10 to the pool 5, while the ratio of the diameter of the overflow 13 and drain 12 pipes is at least 1.4: 1.

The camera operates as follows.

Preliminarily, having removed the cover 2, products 4 are installed in the chamber and the chamber is closed. Turn on the pump 9 and heated water through a pipe 7 from a thermos 10 is supplied to the ejector 8 and then to the perforated pipe 6 located at the bottom of the pool 5. The air captured by the air pipe of the ejector 8 from the internal volume of the chamber 3 enters the pipe 7, where it is mixed with heated water. Then, through the perforation in the pipe 6, air particles mixed with hot water exit into the chamber volume in the form of an aerosol. Since the ejector 8 is constantly suctioning air from the upper part of the chamber 3. air particles mixed with water continuously rise up and at the same time come into contact with the products, giving off their heat. The water supplied by the pump 9 to the pool through the drain pipe 12 is returned to the thermos 10. The inner diameter of the hole of the drain pipe 12 is designed so that the flow rate of water supplied by the pump 9 is greater than the flow rate of water discharged through the drain hole of the pipe 12. Overflow pipe 13 allows you to keep the required level of hot water in the pool and maintain the ratio of the volume of water thermos-pool 2: 1. Water is heated directly in a thermos through a coil through which a heating coolant is supplied. Sources of heat input can be different: steam, geothermal water, heat carrier heated in solar receivers, etc. After the end of the moisture-humid treatment, the pump 9 is turned off, hot water is drained by gravity through the drain hole 12 into a thermos, forcing air into the chamber volume 3 through the tube 13. Then remove the cover 2 and unload the product 4.

Thus, the proposed device with a drain and overflow hole and the placement of the circulation system inside the chamber can significantly simplify the design of the chamber and provide more convenient operation of the chamber, since the beginning and rings of the heat treatment are determined only by turning the pump on and off.

The installation of a coil in the bottom part of the thermos allows the water to be taken directly from the heating zone at each instant of heat treatment, i.e., to supply water to the pool with a maximum temperature, while colder water, which gives up part of the heat energy and lowers the temperature during the heat treatment through the drain hole and overflow pipe spills into the top of the thermos. Thus, a stratification of “cold” and hot water with the supply of the latter for heat treatment to the pool is created, which more effectively affects the reduction in the processing time of concrete products.

Claims (1)

Claim Chamber of heat and moisture treatment of concrete products, containing fences, a lid, a water basin located in the bottom part, a thermos combined with a heater, a circulation system of pipes with a pump, and ejectors with a pool of water supply to the pool, characterized in that, in order to simplify the regulation of camera operation while reducing heat losses and simplifying the design, the water basin is equipped with a telescopic overflow and drain pipes, through which it is connected to a thermos, while the ratio of overflow diameters implicit and discharge tubes is not less than 1.4: 1.