KR101232550B1 - Drying equipment of waste concrete powder - Google Patents

Abstract

The present invention relates to a device for drying dust or powder generated during the process of producing recycled aggregates of waste concrete, and more particularly, to a dust collector and a lower part, which is a device for collecting powder generated in the dry process during the manufacture of recycled aggregates. A mobile screw conveyor is installed to move the collected powder and transfers the powder. During the transfer process, the powder can be dried with less than 1% of the water content in the powder and recycled into a raw material such as concrete products or concrete. A drying apparatus for concrete powder.
The present invention wraps a portion of the conveying screw conveyor installed in the lower part of the dust collector with a heater oil pipe to increase the temperature of the screw outer surface to simultaneously transport and dry the powder. Circulating pump to continuously circulate the oil, a boiler to maintain the temperature of the oil is installed, a steam discharger to discharge the steam generated as the powder is dried, and a pressure reducing device to reduce the pressure generated in the drying process is installed It is characterized by drying during the production process.

Description

Drying equipment of waste concrete powder

The present invention relates to a drying apparatus for drying dust or powder (hereinafter referred to as powder) generated during the process of producing recycled aggregates of waste concrete, and more particularly to the powder generated in the dry process during the process of producing recycled aggregates. The dust collector, which is a collecting device, is installed with a moving screw conveyor to move the collected powder in the lower part and transfers the powder. During the transfer process, the moisture content of the powder is dried to less than 1% and used as a raw material for concrete products or concrete. A drying apparatus for waste concrete powder that can be recycled.

Domestic wastes are largely classified into household, workplace, and construction wastes. In 2008, wastes amounted to 359,296 tons / day, and construction wastes accounted for 49% of the wastes, including 176,447 tons / day. Construction wastes are classified into construction wastes, combustible, non-combustible, construction waste soils, and mixed construction wastes. Waste concretes belonging to construction wastes account for 66% of construction wastes. There are currently about 417 construction intermediate treatment companies in Korea dealing with waste concrete, and among them, about 30 companies produce waste concrete as recycled fine aggregates (reported by national waste generation in 2009, Ministry of Environment).

The process of producing circulating fine aggregate is largely classified into wet and dry, and the wet process means the process of washing aggregate using water as washing water, and the dry process is the process of water during the production process by mechanical treatment such as crushing, grinding and grinding. Means not to use it.

The circulating aggregate produced by the wet process has a water content of about 30%, and sludge generated by washing during the aggregate production process has a water content of about 20-30% using a filter press or a belt press, which is a sludge treatment device. Due to its high moisture content, it cannot be recycled and is disposed of like landfill.

Many methods and apparatuses for recycling waste concrete sludge to be buried have been proposed. Among them, Korean Patent Laid-Open Publication No. 2004-0012415 discloses a patent for dewatering and recycling construction sludge. There is a problem that the complexity is of course cumbersome and not practical, and the publication No. 2006-0091852 is applied to the sludge moving screw type generated by the wet process to apply the heat source directly to the sludge during the moving process to control the water content of the sludge. Patents have been disclosed to recover the steam is sent back to the wash water, there is a problem that the sludge agglomeration occurs by the drying process in the moving screw, or the installation equipment is expensive and economical is not practical.

On the other hand, the circulating aggregate produced through the dry process has a water content of about 10%, and the powder produced during the production of the aggregate is reported to have a water content of 10% or less, unlike the sludge of the wet process. It is not recycled by landfill and is mixed with waste soil, such as a wet process, and is buried. In Korea, research and practical use of drying powder generated in a dry process have not been reported.

Therefore, the present invention has been made to solve the above problems, the waste concrete powder generated in the dry process through the indirect heat source without supplying a direct heat source, the waste concrete powder does not affect the chemical properties of the powder It is an object to provide a drying apparatus.

In order to achieve the above object, the present invention provides a dust collector for collecting powder and dust generated when processed by a mechanical method such as crushing, crushing, grinding, etc. of waste concrete in the dry process to produce the recycled aggregate of waste concrete The conveying screw conveyor installed in the lower part is installed, this conveyor (1) is a device for moving the powder collected in the dust collector by the drive motor (6), the heater oil tube, the heater oil tube surrounding the outer surface of the conveying screw Heater (8) to wrap the heater oil pipe for the insulation, the circulation pump (11) to circulate to have a constant temperature in the heater oil pipe, the oil boiler (12) to continuously increase the temperature of the heater oil, the heater oil pipe Moisture ejector, conveying screw (3) through which the conveying screw conveyor (1), which is wrapped, evaporates the moisture of the powder and can be discharged to the outside. It is composed of a moisture ejector installed to discharge the remaining water to the outside when it is finally discharged outwards and dry the waste concrete powder by indirectly providing a heat source without adding a heat source directly to the waste concrete powder during transport. It features.

The construction of the drying system as described above is characterized by removing only moisture by an indirect heat source rather than a method of changing the chemical composition of the dry at the same time by supplying a direct heat source to the dry to dry the existing drying apparatus. .

The heater oil pipe is filled with oil, and the oil is continuously circulated to maintain a constant temperature, characterized in that for heating the outer surface of the conveying screw conveyor.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing a drying apparatus of waste concrete powder according to the present invention.

As shown in the drawing, the dry process of the method of producing the waste aggregate of the recycled concrete of the waste concrete powder of the present invention during the process of crushing, crushing, grinding, etc., the dust or powder is generated and collecting the machine Dust collector is installed. The installed dust collector is equipped with a conveying screw conveyor at the bottom, and the conveying screw conveyor sends collected powder in one direction to the drive motor. A portion of the conveying screw conveyor is wrapped in the heater oil pipe (4), the oil having a high temperature is circulated by the circulation pump 11 in the heater oil pipe, when the circulating oil is lowered in temperature oil boiler (12) The powder having a water content of 10% is reduced to a water content of 1% by the feed screw device in the portion of the heater oil pipe, and the pressure reducing device (9) ) And a moisture discharger 5 through which water contained in the powder is evaporated and discharged. The pressure reducing device is to minimize the pressure that can be generated in the conveying screw conveyor by reducing the pressure that can be generated during the drying process.

As described above, in the present invention, the apparatus for drying waste concrete powder includes drying the moisture contained in the powder to less than 10% to less than 1% when the heater oil pipe surrounds the transfer screw and the waste concrete powder passes through the portion. This is a useful invention that can recycle the powder itself rather than landfill treatment, in particular by replacing natural silica sand powder in concrete or concrete products.

In addition, the present invention adopts a method of applying a heat source indirectly to the dried material rather than a method of drying by directly applying a heat source to the dry object, so that quality control is very useful because it does not affect the chemical composition after drying. .

And the present invention is a useful invention that the efficient drying is achieved because the equipment is very simple and easily installed in the existing equipment does not affect the production process.

1 is a cross-sectional view of a drying apparatus of waste concrete powder.
1: powder inlet
2: bearing
3: moving screw
4: heater oil pipe
5: steam ejector
6: drive motor
7: powder outlet
8: heater oil tube warmer
9: pressure reducing device
10: circulating oil pipe
11: circulation pump
12: heater boiler

Hereinafter, the present invention will be described in more detail with reference to Examples. However, the following embodiments are not limited to the scope of the present invention, but can be conventionally changed by those skilled in the art within the scope of the technical idea of the present invention.

Measured by changing the length of the conveying screw conveyor, the length of the area covered by the heater oil pipe and the temperature change of the temperature heater oil.

Experiment 1.

The change of moisture content is as follows when the conveying screw conveyor length is 1.5m and the area where the heater oil pipe wraps is 0.7m, and the water content of waste concrete powder is passed by 10% of the temperature.

Moisture content before passing Temperature Moisture content after passage 10 50 7.5 100 7.0 150 6.3 200 5.3

Experiment 2.

The change of water content is as follows when the feed screw conveyor length is 2.0m and the area where the heater oil pipe wraps is 1.5m.

Moisture content before passing Temperature Moisture content after passage 10 50 4.8 100 3.2 150 1.5 200 0.8

Experiment 3.

The change of moisture content is as follows when the conveying screw conveyor length is 2.5m and the area covered by the heater oil pipe is passed by temperature of 10% of moisture content of the waste concrete powder.

Moisture content before passing Temperature Moisture content after passage 10 50 2.1 100 1.9 150 0.8 200 0.5

Claims (3)

It is wrapped at the transfer screw conveyor installed at the lower part of the dust collector with the heater oil pipe to raise the temperature of the outer surface of the screw to carry out powder transfer and drying at the same time. A pump and a boiler are installed, and at the end of the heater oil pipe, a steam outlet for discharging steam generated during the powder drying process and a pressure reducing device for reducing the pressure generated during the drying process are installed to control the pressure. Drying device of waste concrete powder In Item 1

The circulating oil of the heater oil pipe is continuously circulated by the circulation pump at a temperature of 150-200 degrees, and the oil boiler controls the circulating oil at 150-200 degrees so that no oil loss occurs. Drying device
The method according to claim 1,

Drying device is a device for drying the waste concrete powder, characterized in that there is no change in the quality of the dry material because the drying device is supplied by drying the indirect heat source rather than the method by directly supplying the heat source to the dried material.

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