KR19990070145A - Dust collection system - Google Patents

Abstract

The present invention comprises a drying unit 20 for completely removing foreign substances and water contained in the condensed air after heat condensing the compressed air compressed by the compressor 10 at room temperature; A storage unit 30 which directly receives dust collecting objects that have passed through the pottery or grinder A and discharges dust to an upper portion, and stores particles; The dust discharged from the storage unit 30 is collected and collected in the filter filter 42, and the particles deposited on the filter filter 42 by compressed air are discharged after the water is removed through the drying unit 20. Separating and constituting the dust collecting unit 40 for discharging the separated particles to the storage unit 30 to completely remove the moisture in the compressed air through the compressor, and then ejected to the dust collecting unit to penetrate the dust to the dust collecting portion to form a void of the filter filter By preventing clogging, the filter filter can extend the life of the filter filter and prevent the loss of the device. Also, the pressure loss of the whole device can be suppressed, preventing the compressor and the turbo fan from increasing in capacity. The present invention relates to a dust collecting system that can simplify the structure of the system so that particles are directly supplied to a storage unit to store particles and dust is collected through a dust collector.

Description

Dust collection system

The present invention relates to a dust collecting system for forcibly sucking dust collected in grains, milled rice hulls, etc., which have been finished in the milling process.

As is well known, the dust collection system forcibly sucks up the dust collecting object after the milling process of the grain or the crushing of the rice husk, and stores the particles by gravitational sedimentation, and deposits dust on the filter to discharge only clean air to the atmosphere. It is a system to prevent pollution of the environment.

In the conventional dust collecting system, as shown in FIG. 1, the particle collecting unit 2 is configured to grab the dust collecting object, which has been processed, by gravity settling through the metropolitan or crushing unit A, and the particle collecting unit 2 A dust collecting part (3) is formed to suck the dust not collected through the filter and deposit it on the filter filter, and discharge only clean air to the outside, and the particles and the dust collecting part (3) discharged after being collected by the particle collecting part (2) The storage unit 4 is configured to store the particles discharged after being deposited, and to discharge the stored particles to be selectively packed with the truck. The one side of the dust collecting unit 3 ejects compressed air at high pressure. Compressor 1 for shaking off the dust deposited on the filter filter is connected, and the other side of the dust collecting unit 3 is connected to the turbo fan 5 for discharging the collected clean air to the outside.

In the conventional dust collecting system as described above, the water contained in the outside air is compressed and discharged from the compressor, and condensed by the difference in the saturation temperature of the steam from the moment of heat exchange at the saturation temperature to generate liquid water. It is contained in the discharged air and is blown out to the dust collector 3.

In this way, the moisture in the air blown out by the dust collector 3 may block the air gap of the filter filter and interfere with the flow of air, thereby lowering the suction force of the turbofan 5 and causing an overload of all power, which may damage the device. In addition, it shortens the life of the filter filter, removes the lubricating components of each driving part, causes corrosion, and loses a lot of pressure throughout the apparatus.

In addition, the pressure loss was further increased due to the installation of the particle collecting unit 2, which acted as a factor of increasing the capacity of the compressor 1 and the turbo fan 5.

Accordingly, the present invention has been made in view of the above-mentioned conventional defects, and its object is to remove moisture from the air compressed and discharged through the compressor to extend the life of the device and to suppress the pressure loss and to improve the structure. It is to provide a dust collecting system that can be simplified.

The present invention for achieving this object is a drying unit for completely removing the foreign matter and water contained in the condensed air after heat condensing by compressing the compressed air compressed through the compressor at room temperature; A storage unit for directly receiving a milled or pulverized dust collecting object and discharging dust to an upper portion and storing particles; The dust discharged from the storage unit is collected and collected in the filter filter, and after the moisture is removed through the drying unit, the particles deposited on the filter filter are removed by compressed air that is ejected, and the particles are collected at the dust collecting unit which is discharged to the storage unit. It is characterized by the configuration.

1 is a block diagram of a conventional dust collecting system

2 is a block diagram of a dust collecting system to which the present invention is applied

Explanation of symbols for the main parts of the drawings

10: compressor 20: drying part

21: condenser 22: separator

23: pretreatment filter 24: oil filter

25: adsorption dryer 26: aftertreatment filter

27: exhaust tank 30: storage unit

40: dust collector 50: turbo fan

Hereinafter, the configuration of an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 2 is a block diagram of a dust collecting system to which the present invention is applied.

The dust collecting system to which the present invention is applied comprises a drying unit 20 which completely removes foreign substances and water contained in the condensed air after heat-condensing the compressed air through the compressor 10 at room temperature, and then, is a mill or a pulverizer. The dust is discharged to the upper portion directly receives the dust collecting object passed through (A), and the storage unit 30 is configured to store the particles, the filter filter 42 receives the dust discharged from the storage unit 30 A dust collecting unit for collecting the particles in the filter unit 42 by separating the particles deposited on the filter filter 42 by compressed air which is discharged after the water is removed through the drying unit 20 ( It is characterized by the configuration of 40), which will be described in more detail as follows.

The drying unit 20 is provided with a condenser 21 for heat-exchanging the air compressed through the compressor 10 at room temperature, the separator 22 for separating the moisture in the air heat exchanged through the condenser 21 ) Is provided, and the pretreatment filter 23 and the oil filter 24 are further provided in order to further remove foreign substances and moisture in the air from which water is separated through the separator 22, and the filter 23 is provided. Adsorption dryer 25 and post-treatment filter 26 are sequentially provided to completely remove moisture in the air passing through the air, and the air passing through the adsorption-type dryer 25 and post-treatment filter 26 is sequentially supplied. An exhaust tank 27 is provided to hold a certain amount and to discharge it to the dust collecting part 40.

The storage unit 30 is connected to the rotary valve 43 at an upper portion of the hopper 31 having the upper and lower narrow shapes and the plurality of vibrators 311 mounted on the outer circumferential surface of the lower part, separated from the dust collecting unit 40. It is configured to store, the inner upper portion of the hopper 31 is equipped with a level sensor 32 to control the storage amount of particles. In addition, the lower center of the hopper 31 is configured with a discharge port 34 which is selectively opened and closed by the operation of a pair of pneumatic cylinders 33 so that the stored chaff can be directly loaded on a vehicle carrying a large amount, such as a truck, On the lower side of the hopper 31 is configured a screw conveyor 35 for quantitatively extracting the stored chaff to be packaged in the bag.

The dust collecting part 40 is connected to the storage part 30 on one side of the hopper 41 having a light-receiving narrow shape and a plurality of vibrators 411 mounted on a lower outer circumferential surface thereof, and having an upper portion thereof. The exhaust tank 27 of the drying unit 20 is connected to the inside of the hopper 41 to forcibly supply high-pressure air, the other side to the suction force to the entire system and to collect the clean air to the outside The discharged turbo fan 50 is connected, the lower portion of the hopper 41 is configured with a rotary valve 42 for discharging the accumulated dust to the hopper 31 of the storage unit 30.

The following describes the operation process of the present invention dust collection system configured as described above in detail.

First, when power is applied to the control unit of the system, the compressor 10 and the solenoid valve S connected to the upper part of the dust collector 40 are operated, and then the power is applied to the rotary valve 43 of the dust collector 40. The turbo fan 50 is operated.

In this state, the dust collecting object that has passed through the pottery or grinder (A), etc. is introduced into the hopper 31 of the storage unit 30 by the suction force of the turbofan 50, and the particles of the introduced dust collecting object are settled downward. Light dust is introduced into the hopper 41 of the dust collector 40. The particles of the dust thus introduced are attached and deposited on the surface of the filter filter 42, and the particles are separated by compressed air compressed in the compressor 10 and ejected into the hopper 41 and stored through the rotary valve 43. The hopper 31 of 30 is discharged, and the clean air is sucked by the turbo fan 50 and discharged to the outside.

Meanwhile, the air compressed by the compressor 10 passes through the condenser 21 of the drying unit 20 and heat exchanges at room temperature, and the air heat exchanged through the condenser 21 passes through the separator 22 to be contained in the air. The separated water is separated, and the air separated from the water through the separator 22 is sequentially passed through the pretreatment filter 23 and the oil filter 24 to further remove foreign substances and moisture. Subsequently, the air passing through the pretreatment filter 23 and the oil filter 24 is removed through the exhaust tank 27 after all of the remaining water is removed while sequentially passing through the adsorption dryer 25 and the aftertreatment filter 26. The dried air retained in a certain amount and held in the exhaust tank 27 is blown into the hopper 41 of the dust collecting part 40 via the solenoid valve S to separate particles deposited on the surface of the filter filter 42. Let's do it.

As such, the compressed air ejected into the hopper 41 of the dust collecting part 40 through the drying part 20 is completely removed to maintain the dust collecting part 40 in a dry state.

As described above, the present invention completely removes the water contained in the compressed air through the compressor and then ejects it to the dust collecting part to prevent the air gap of the filter filter from being blocked by water, thereby extending the life of the filter filter and smoothly circulating the air. This can prevent overload.

In addition, the pressure loss of the whole device can be suppressed to prevent the compressor and turbo fan from increasing in capacity, and the structure of the system is stored so that the dust or dust is collected through the dust collector by directly supplying the milled or pulverized dust collection object to the storage unit. The economic effect can be simplified to simplify.

Claims (2)

A drying unit 20 for completely condensing the compressed air through the compressor 10 at room temperature and condensing the foreign matter and water contained in the condensed air; A storage unit 30 which directly receives the dust collecting object that has passed through the pottery or grinder A, discharges dust to the upper portion, and stores particles; Receiving the dust discharged from the storage unit 30, the particles are collected in the filter filter 42, the moisture is removed through the drying unit 20 is deposited on the filter filter 42 by the compressed air is ejected after Dust collecting system, characterized in that for separating the particles, the dust collecting unit 40 for discharging the separated particles to the storage unit (30). The drying unit 20 of claim 1, A condenser 21 is provided to heat exchange the compressed air through the compressor 10 at room temperature, and a separator 22 is provided to separate moisture contained in the air heat exchanged through the condenser 21. The pretreatment filter 23 and the oil filter 24 are sequentially provided to further remove foreign matters and water in the air from which water is separated through the eta 22, and the air passed through the filter 23 and 24. The suction tank 25 and the aftertreatment filter 26 which completely remove the moisture in the air are sequentially provided, and the exhaust tank 27 which holds a predetermined amount of air passing through the aftertreatment filter 26 and discharges it to the dust collector 40. Dust collection system characterized in that it is provided.