RU2606522C1 - Front concrete products thermo humidity processing automatic control device - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to production of construction materials. Front concrete products thermo humidity processing automatic control device includes thermo humidity processing chamber, air circulation device and moistening device, connected to control unit. Circulation device is made in form of pipeline with suction holes in chamber upper part and comprises axial fan for wet-hot air suction through holes, humid-warm air circulation valves and discharge into atmosphere valves, exhaust nozzle in chamber lower part and air humidity sensors. Moistening device includes high pressure steam humidifiers and free-flow steam humidifier, made with possibility of synchronization. Free-flow steam humidifier is arranged in thermo humidity processing chamber. Control unit is made with possibility of control signals automatic transmission to circulation and moistening devices, calculated taking into account of control over articles supply into chamber periodicity, moisture content of articles themselves and steam-air mixture temperature in articles thermo humidity processing chamber.

EFFECT: enabling higher quality of concrete articles.

3 cl, 2 dwg

Description

The invention relates to the production of building materials and can be used at building enterprises equipped with hydraulic presses for the manufacture of concrete products and rack-type steaming chambers with an automatic control system for the thermal-moisture treatment of facial concrete products, as well as in any processes where temperature and relative humidity of the steam and air are required mixtures.

There is a method of heat-moisture treatment of reinforced concrete products at atmospheric pressure with a coolant, which is used as flue gases, which are saturated with water vapor in a layer heat exchanger before heat treatment of products in a steaming chamber (RU 2214330 C2, B28B 11/24, 10/20/2003).

The disadvantage of this method is that the flow of flue gases is moistened unevenly, a breakthrough of high-temperature un moistened gas into the steaming chamber is possible, which leads to uneven temperatures and the chemical composition of the coolant in the steaming chamber and, as a result, overdrying of a part of the surface of the concrete product, the occurrence of thermal stresses in product and, accordingly, a decrease in the strength characteristics of concrete.

A known method of heat-moisture treatment in a chamber for heat treatment of building products. According to this method, trolleys with stacked products move in the heat treatment chamber along the rail track and the coolant (for example, gas-air mixture or steam) is fed to the lower part of the chamber. Due to the presence of heat-reflecting panels located perpendicular to the movement of the trolleys, the lower part of which is made of elastic material, the supplied coolant is circulated in the chamber due to the redistribution of the air-gas mixture flows along its height (SU 751804 A1, B28В 11/24, 07/30/1980).

The disadvantage of this method is that there is unevenness in the temperature distribution of the gas mixture over the height of the chamber and the inability to control the intensity of the hardening of concrete during transportation of products in the chamber.

A control device is known for thermo-humid processing of reinforced concrete products, comprising a sensor for receiving products into a steaming chamber, a temperature and humidity sensor located in the respective zones of the chamber, a shaper of discrete signals about the duration of downtime, three-position temperature and humidity controllers, automatic correction blocks for setting temperature and humidity, memory blocks in idle mode and thermal-humid processing, pulse counters, logical decision blocks, logical multiplier blocks Ia, inverters, and two pulse breaker actuators governing bodies coolant feed and steam in the respective zones (RU 2026779 C1, V28V 11/00, 20.01.1995).

The disadvantage of the device is the use of superheated high pressure steam as a coolant, which, when it enters the moisture-humidification treatment chamber, condenses on the metal structures of the chamber and falls onto concrete products in the form of water droplets, leads to the formation of water stains on the front surface of the products, as well as a high specific energy consumption on the formation of superheated steam, low reliability of the system, the immutability of tasks on the humidity of the steam supplied to the chamber of the moisture-humidity processing of products (excess steam is released into the atmosphere), which leads to the formation of condensate on the surface of the chamber structures and on the surface of the products, and this leads not only to a decrease in the quality of the products, but also to a violation of the appearance of the products.

The technical result of the claimed invention is to improve the quality of painted concrete products due to automatic control and measurement in certain areas of the humidification chamber and air temperature, maintaining the temperature and humidity of the air corresponding to the selected method of heat-moisture treatment of concrete products.

The technical result is achieved in that the device for automatically controlling the thermal moisture treatment of concrete concrete products includes a thermal moisture treatment chamber, an air circulation device and a humidification device associated with the control unit, the circulation device is made in the form of a pipeline with suction openings in the upper part of the chamber and contains an axial fan for suction humid warm air through openings, circulation valves and the release of moist warm air into the atmosphere, exhaust nozzles in the bottom of the chamber, humidity sensors and a ceiling fan, the humidification device includes high-pressure steam humidifiers and a non-pressure steam humidifier, made with the possibility of mutual synchronization, the control unit is configured to automatically transmit control signals to circulation and humidification devices, calculated taking into account control of the frequency of receipt of products into the chamber, the humidity of the products themselves and the temperature of the steam-air mixture in the chamber of the thermo-humid processing of the products.

Further, the invention is illustrated by drawings, where:

FIG. 1 - chamber thermal treatment;

FIG. 2 - air circulation device.

A device for automatically controlling the thermal moisture treatment of concrete concrete products includes (Fig. 1) a thermal moisture treatment chamber (1), an air circulation device (2), a humidification device (3), and a control unit.

The air circulation device (2) is made (Fig. 2) in the form of a pipeline (4) with suction openings (5) in the upper part of the chamber (1) and contains an axial fan (6) for sucking moist-warm air through the openings (5), valves for circulation (7) and release (8) of moist warm air into the atmosphere, exhaust nozzles (9) at the bottom of the chamber, humidity sensors and a ceiling fan (not shown in the drawing).

The humidification device (3) includes high-pressure steam humidifiers and a non-pressure steam humidifier (not shown in the drawing). In a high-pressure humidifier, water is pumped into the spray nozzles using high-pressure pumps and is injected through them into the ventilation ducts for supplying warm air to the chamber. The water supply is automatically regulated by the control unit, taking into account the readings of the humidity level in the chamber for thermo-humid processing of products and the humidity level of warm air in the ventilation pipes at the inlet to the high-pressure humidifier. A non-pressure steam humidifier located in the thermal-humidification treatment chamber includes a steam cylinder in which water is converted directly into water vapor by means of electrodes by heating, and water plays the role of electrical resistance. Evaporation is carried out at atmospheric pressure. The evaporation process proceeds automatically and is controlled by the control unit. The operation of all humidifiers is synchronized using the control unit.

The control unit provides the required mode of heat-moisture treatment of products by controlling the frequency of receipt of products in the chamber, humidity of the products themselves and the temperature of the steam-air mixture in the chamber of heat-moisture treatment of products and automatically maintains the required technological mode of heat treatment of concrete concrete products.

The operation of the device is as follows.

When the strength of concrete products pressed on the molding section is set, heat is released (the so-called heat of hydration). Under the action of this heat, part of the mixing water evaporates from the front surface of the concrete product. As a result, the vapor-air mixture heats up and rises up due to its relatively low density. A layer of warm air is formed under the roof of the chamber of thermal humidity treatment of products. In the chamber of thermal-humid treatment, a distinct difference in temperature and humidity of the vapor-air mixture is formed. Due to the difference in temperature and humidity of the vapor-air mixture, a color change may occur in pressed concrete products located at different heights in the heat-moisture treatment chamber.

To equalize the differences in temperature and humidity in the chamber of thermo-humid processing of products, a device for circulating the vapor-air mixture is provided. With the help of electric fans, the warmer vapor-air mixture is sucked through the holes in the pipelines located under the roof of the chamber, and through the outlet nozzles it is fed under the lower tier of the racks in the chamber.

If the limit value of relative humidity is exceeded in the upper levels of the chamber of the humidification treatment of products, part of the moist air is blown from the chamber to the atmosphere, and relatively dry air is supplied until the limit value of humidity is established at the level set by the technological mode.

This is realized through the control unit, air humidity sensors and automatically controlled valves. Humidity sensors are installed in the upper part of the chamber for the humidity and humidity treatment of products (under the roof of the chamber). In case of violation of the necessary technological regime for the humidity of the steam-air mixture (for example, the limit value of relative humidity is set to 92%), if any sensor detects that the limit value of relative humidity is exceeded, control signals are sent to the control unit, and the circulating air valve closes, and the humid exhaust valve opens. In this state, part of the waterlogged air is sucked out of the chamber of the thermo-humid treatment of the products, and relatively dry air is supplied until the limit value of humidity is established at the level set by the technological mode. At the same time, a control signal is supplied to the control unit to turn off the high-pressure humidifiers and turn off the pressureless steam humidifier.

Humidification of the air in the chamber of the thermo-humid processing of products according to the technological process of gaining strength reduces the risk of water loss on the front surface of concrete products.

When the relative humidity of the vapor-air mixture in the chamber of the thermo-humid treatment of the articles decreases below the limit value (for example, below 90%), the circulating air valve opens and the valve for the release of moist air into the atmosphere closes. At the same time, a control signal is supplied to turn on high-pressure humidifiers and turn on a pressureless steam humidifier. Too low relative humidity of the vapor-air mixture can lead to drying of the front surface of concrete products, and, as a result, disruption of the process of building strength. The consequence of this will be a deterioration in the quality of concrete, especially on the front surface, i.e. the wear resistance of the products will be reduced, the worst indicators of frost resistance and resistance to aggressive effects of salt solutions will be obtained.

Inside the chamber of heat-moisture treatment of products, automatic electric mobile platforms (transborders) for moving and stacking concrete products, as well as lifting and lowering stackers, can be operated. In order to avoid the formation of temperature and humidity differences, as well as to protect the electronics of the units from condensation, additional ceiling fans are installed in this area. They squeeze relatively warm and moist air from under the roof of the chamber back down, so that a uniform microclimate occurs in the area of the mobile conveyor. By organizing continuous air movement, the risk of condensation is reduced.

Thus, the use of the claimed device for automatic control of the thermal-moisture treatment of facial concrete products improves the quality of concrete products.

Claims (3)

1. A device for automatically controlling the heat-moisture treatment of concrete concrete products, including a heat-moisture treatment chamber, an air circulation device and a humidification device associated with a control unit, characterized in that the circulation device is made in the form of a pipeline with suction openings in the upper part of the chamber and contains an axial fan for suction of moist warm air through openings, circulation valves and the release of moist warm air into the atmosphere, exhaust nozzles in the lower part of the chambers and air humidity sensors, the humidification device includes high-pressure steam humidifiers and a non-pressure steam humidifier, made with the possibility of mutual synchronization, while the non-pressure steam humidifier is located in the humidification treatment chamber, the control unit is configured to automatically transmit control signals to circulation and humidification devices, calculated from taking into account the control of the frequency of receipt of products into the chamber, the humidity of the products themselves and the temperature of the vapor-air mixture in least moisture treatment of products. 2. The device according to p. 1, characterized in that inside the chamber of thermo-humid processing of the products there are automatic electric mobile platforms for moving and stacking concrete products, as well as lifting and lowering stackers. 3. The device according to claim 2, characterized in that ceiling fans are installed in the area above the mobile platforms.

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