KR101166221B1 - Dust collection and removal system and method - Google Patents

Abstract

Dust comprehensive processing system of this invention, the dust collector 10 scattered in many places; A suction pipe passage 20 which sucks dust from the dust collector by using suction force by air pressure and transports dust by air pressure to a specific position at a rear end thereof; It is formed at the end of the suction pipe passage, to protect the back filter of the rear end to accumulate high particulate matter sucked through the suction pipe at the bottom by gravity, and to prevent the inflow of outside air to increase the dust collection efficiency A primary gravity dust collecting device 30 having a rotary valve attached thereto; A secondary bag filter dust collector 40 for collecting dust scattered by the primary gravity collector using a bag filter; A dust storage silo 50 for storing the dust collected by the primary gravity type dust collector 30 and the secondary bag filter dust collector in a dry state; A dust metering hopper 60 formed at the bottom of the dust storage silo for metering the amount of dust before mixing dust and water; And a dust high speed mixer 70 which receives water from the water supply device 80, receives dust measured from the dust metering hopper, and mixes water and dust at high speed.

Description

DUST COLLECTION AND REMOVAL SYSTEM AND METHOD}

The present invention relates to a dust comprehensive treatment system and method, and more particularly, to a dust comprehensive treatment system and method for collectively collecting and treating dust at a rear end of a dust collector which collects dust such as a foundry.

In places where dust is inevitably generated in various factories, such as steel mills and foundries, dust collection facilities should be provided to prevent scattering dust to prevent air pollution and improve the working environment of workers.

There are many kinds of dust properties and types according to the type of manufacturing industry.However, in the casting manufacturing process, about 10% of the use of foundry sand is used as dust or waste foundry sand as the casting sand, or mold, is poured into the sand and injected with high temperature 1500 ℃. You have to change to landfill. (50 million tons / year: Foundry Association)

Currently, the dust collecting facilities generally used are independently installed in a place where a lot of dust is generated, the dust collected at each place is put in a bag or box, and then loaded on a forklift and discharged to the outside by a vehicle. I'm doing it. In this process, the bag or box that collects the dust must be transported by man himself, so that non-acidic dust (dust) penetrates into the respirator of the carrier and has a great adverse effect on the health of the carrier. Even in Edo, dust is escaping from bags and boxes and harming the atmosphere.

In other words, the conventional method temporarily stores the dust collected by the dust collector, and a large amount of scattered dust is generated again in the process of loading on the vehicle, and due to the floating dust generated in this management process, the impact on the health of employees and the surrounding environment is greatly affected. In addition to falling rain, it is now a fact that fallen dust enters rivers during the rainy season and pollutes rivers and seas.

In addition, the workers in the manufacturing plant may have a shortage of manpower, but due to the nature of the dust, it immediately penetrates into the human body as a respiratory phenomenon, so it is urgent to produce only the product.

The present inventor has proposed a method for comprehensively treating dust and registered it as Utility Model Registration No. 0383758 (dust treatment system). The utility model is suctioned into the main collector from the dust collector collected independently in each place, and finally collected dust in the main collector, and then mixed with the dust of the main collector and water in a mixer located in the lower part of the main collector to wet the silo After several days of storage in a wet state, when a certain capacity is reached, a mixture (dust + water) is loaded on a vehicle using a conveyor and then discharged to the outside. This method is advantageous in that it collects dust collected from scattered dust collectors in one main dust collector, but by storing wet dust (dust mixed with water) in silos, the dust settles in silos / There is a problem that it is not cumbersome at the time of discharge because it is fixed, and additional burden is generated by installing a conveyor facility separately by transporting using a conveyor.

The present invention is to solve the above problems, the object of the present invention is to achieve the efficient collection of dust at a low energy cost, to prevent the re-splash of the collected dust, and to settle in the silo of the wet (wet) dust or It is to provide a dust comprehensive treatment apparatus and method which can prevent sticking (condensation) and solve a problem of a conventional dust treatment apparatus.

The present invention is to achieve the above object, the dust synthesis processing system of the present invention, the dust collector 10 scattered in a number of places; A suction pipe passage 20 which sucks dust from the dust collector by using suction force by air pressure and transports dust by air pressure to a specific position at a rear end thereof; It is formed at the end of the suction pipe passage, to protect the back filter of the rear end to accumulate high particulate matter sucked through the suction pipe at the bottom by gravity, and to prevent the inflow of outside air to increase the dust collection efficiency A primary gravity dust collecting device 30 having a rotary valve attached thereto; A secondary bag filter dust collector 40 for collecting dust scattered by the primary gravity collector using a bag filter; A dust storage silo 50 for storing the dust collected by the primary gravity type dust collector 30 and the secondary bag filter dust collector in a dry state; A dust metering hopper 60 formed at the bottom of the dust storage silo for metering the amount of dust before mixing dust and water; And a dust high speed mixer 70 which receives water from the water supply device 80, receives dust measured from the dust metering hopper, and mixes water and dust at high speed.

According to a preferred embodiment, the dust high speed mixer 70 has a motor 71 installed on the upper side, a planetary geared rotary body 72 connected to the motor to rotate based on the main shaft, the planetary geared rotor of the Rotating holder (73) attached to one side, rotating along the main axis and rotating at the same time, connecting rod (74) attached and rotating and rotating to the rotating holder, the inner plastic is attached to the lower portion of the connecting rod to stir dust and water Right 75, attached to the other side of the planetary gear rotating body, the main connecting rod 76 to revolve, the outer plow attached to the lower portion of the main connecting rod, revolving along the lower edge in the dust high speed mixer (77) ), And a dust supply pipe 78 installed at one side of the dust high speed mixer, to which dust is supplied, and a water supply pipe 79 to supply water.

According to a preferred embodiment of the present invention, the dust synthesis treatment method,

Inhaling dust through the dust collector 10 scattered in a number of places, to maintain the flow rate of the suction pipe using air pressure 25m / s ~ 35m / s to concentrate the collected dust in one place through the inlet pipe, collected The first gravitational dust collecting step maintains an internal flow rate of 8 m / s to 15 m / sec so that the particulates of high particulate matter are naturally dropped by gravity, and the fine dust not collected in the first gravitational dust collecting step is collected. Secondary bag filter dust collecting step to collect by using bag filter, dust storage step of storing the collected dust in the dry state in the first gravity dust collecting step and the second bag filter dust collecting step, dust before mixing the stored dust with water Dust measuring step for measuring the amount of water, the water supply from the water supply device (80), receiving the metered dust from the dust metering hopper, mixing step of mixing water and dust at high speed, and water And discharging the mixing mixture of dust and dust directly onto the vehicle.

As described above, the dust comprehensive treatment system of the present invention sucks the dust collected through the dust collector installed in the factory individually by a high pressure blower through a closed pipeline (suction pipe) to prevent dust from scattering again, The advantage is that dust can be sucked efficiently. In addition, complete dust collection is possible through gravity dust collection and bag filter dust collection, and only clean air is discharged to the outside, and dust is stored in the silo in a dry state, and a separate hopper, screw belt, and other driving facilities are unnecessary. As the dust is stored in the silo rather than in the wet state, even if stored for a few days, it is possible to prevent the dust from sedimenting or solidifying in the lower part.

In addition, just before the dust mixture is discharged to the outside through the vehicle, an appropriate amount of water and the accurately measured dust are mixed in the high speed dust mixer, and then discharged directly into the vehicle through the exhaust hole at the bottom of the high speed dust mixer. Dust can be prevented from being settled or settled, there is an advantage that can solve many problems caused by collecting dust by a conventional manpower or forklift.

In addition, the dust high speed mixer used in the present invention is applied to the planetary gear rotating body, the rotating inner plow and the rotating outer plow rotates in the reverse direction, so that the dust is well mixed with the water at high speed, and also dust collection The lower edge of the easy dust mixer is passed through the outer plow with a "b" cross section so that dust does not accumulate on the lower edge of the dust mixer.

1 is a schematic representation of a dust synthesis processing system, in accordance with a preferred embodiment of the present invention.
2 is a flow chart of a method for comprehensive treatment of dust, according to a preferred embodiment of the present invention.
3 is a cross-sectional schematic diagram of a dust high speed mixer of a dust synthesis processing system, according to a preferred embodiment of the present invention;

Hereinafter, with reference to the accompanying drawings will be described in more detail the dust synthesis processing system and method of the present invention.

1 is a schematic diagram of a comprehensive processing system of the present invention.

Referring to Figure 1, the integrated treatment system of the present invention is a dust collector (10)-> suction pipe line (20)-> primary gravity dust collector (30)-> secondary bag filter dust collector (40)-> dust storage silos (50)-> dust metering hopper 60-> dust high speed mixer 70 and water supply 80.

The dust collector 10 is installed in a large number independently of the place where a lot of dust is generated, and collects the dust generated in the installed place individually.

The suction pipe line 20 is formed of a closed pipe, and is a passage for transporting dust by air pressure to a specific position of the rear end. Suction force is made by a high pressure browser (brower) installed on one side of the suction pipe. The suction pipe path 20 is a powder suction pipe path that suctions dust collected by the dust collector 10 at a blower pressure of about 400 mmAq to 1200 mmAq and delivers the dust to a predetermined constant place. The pressure is relatively low, and the method of sucking dust continuously is effective to prevent re-spreading of the collected dust. The diameter of the pipe depends on the total amount of dust collected in the plant, the air volume, and the suction feeding distance. The pipe flow rate is approximately 25 m / s to 35 m / s. A valve for controlling outside air is attached to the rear end of the dust intake port to maintain a constant flow rate in the intake pipe and prevent the blockage of the pipe.

The primary gravity dust collecting device 30 is a device that first collects large particulate matter for protecting the bag filter 42 at the rear end by having a higher dust concentration than the amount of air by sucking the collected dust. The internal flow rate of the gravitational dust collector is maintained at about 8 m / s to 15 m / s, so that large particulate dust accumulates to the bottom, and an airtight rotary valve (32) which prevents inflow of external air to increase dust collection efficiency. ) Is attached to the bottom.

The secondary bag filter dust collecting device 40 is a device for finally collecting dust collected at the factory, and filters air using a plurality of bag filters 42 installed therein. The high concentration of dust in inlet air increases the efficiency of dust collection at less than 1m / min filtration rate for efficient dust collection, and releases only clean air into the atmosphere. The shape of the bag filter for collecting is preferably cylindrical in consideration of durability of the wind pressure. There is a dust storage silo (50) for storing the dust in the dry state in the lower bag filter dust collector, there is no need for a drive device, such as a dust hopper, screw conveyor, rotary valve attached to the dust collector, that is, separate dust discharge device There is no need, and it consists of only bag filter and it will be called economical and energy-saving high efficiency dust collecting method.

The dust storage silo 50 is a main silo that stores the dust collected by the first gravity dust collecting device 30 and the secondary bag filter dust collecting device 40 in a dry state, and stores the dust in a dry state. The bin can be stored for several days without tangling or sticking. Conventionally, by storing the dust and water in a silo in a wet state, it is difficult to discharge the dust from the silo due to entanglement or sedimentation (sedimentation) of the dust, and after a certain time, the dust and water are separated from each other and the effect of mixing It was also insignificant. However, in the present invention, by storing the dust in the dry state in the dust storage silo, and directly discharge the dust mixture from the lower part of the silo when discharged to the outside it can prevent the entanglement or seizure of the dust. The dust storage silo 50 should be kept airtight to prevent outside air inflow, and a level switch for detecting the amount of dust as a structure supporting the total amount of dust is installed.

A dust discharge valve is attached to the lower portion of the dust storage silo 50, which is a functional valve for discharging stored dust, and is an automatically controllable valve for discharging a predetermined amount in a predetermined shortest time. The control of the valve is carried out by the automatic control method by the metering of the dust metering hopper 60, which is controlled by the control signal of the control panel (PLC panel or microcomputer, not shown). In addition, the on / off of the power supplied to each device, the on / off of various valves, etc. are made through the control panel.

Dust metering hopper 60 is a hopper for measuring the amount of dust flowing into the dust high speed mixer 70 at the bottom. Since dust is a waste, in order to prevent re-scattering, the required level of moisture must be added, for this purpose, it is a device for accurately pre- weighing the amount of dust. For accurate weighing of dust, load cells, level switches, timers, and scale scales are installed. That is, the dust metering hopper 60 equalizes the mixing ratio of dust and water to prevent dust re-spreading, maintains the economical mixing ratio, and at the bottom of the dust high speed mixer for loading as much as possible in a short amount of time in a waste vehicle. Dust metering hopper for shortening the mixer time at 70 can be said.

The water supply device 80 is a device for supplying an appropriate amount of water to the dust high speed mixer at the bottom. Water is the main medium to prevent the re-spreading of dust. Economical quantity supply is optimally required to supply constant water to the amount of dust, and it is installed on the upper side of the dust high speed mixer without a pump or a separate pressurization device. Water is supplied to the mixer through a water supply pipe 78 (FIG. 3). The supply of water is made by opening and closing the automatic control valve attached to the pipe line, it will be called an economical and energy-saving water supply.

The high speed dust mixer 70 receives water from the water supply device 80, receives dust metered from the dust metering hopper 60, and mixes water and dust. Dust has a large surface area and takes a long time to mix with water. In view of this, several vertical inner plows and a mixing apparatus in which the outer plows rotate at high speed in opposite directions are employed. By implementing a high speed mixer of 700 ~ 1500kg in 45 seconds in a short time, it can be designed to load the 25 tons for 30 minutes for the vehicle driver who is commissioned according to the automatic driving system.

3 is a cross-sectional schematic diagram of a dust high speed mixer, according to a preferred embodiment of the present invention.

As shown in FIG. 3, the dust high speed mixer of the present invention is a vertical mixer, in which a plurality of vertical inner plows 75 and an outer plow 77 have high speeds in opposite directions. It is a method of rotating and mixing. The outer ply 77 is attached to the planetary gear rotating body, and the inner plow 75 is attached to the rotation holder attached to the planetary gear rotating body, and also rotates by the rotational force of the rotary holder. The right 75 rotates and the outer ply 77 rotates at the same time in the form of a revolution to prevent sedimentation and fixation of dust and to allow smooth mixing. In addition, the dust high speed mixer of the present invention is a vertical type of plow with a motor attached to the upper side, and both inner and outer plows attached to the upper side, so that the dust is not attached to the mixer bottom or the inner and outer plows. .

As shown in Figure 3, the dust high speed mixer according to a preferred embodiment of the present invention, the motor 71 is installed on the upper side, the planetary gear-type rotating body 72 connected to the motor to rotate based on the main shaft, the planetary It is attached to one side of the gear-shaped rotating body, and rotates along the main axis and rotates at the same time the rotation holder 73, the connecting rod 74 is attached to the rotation holder and rotates, and attached to the lower portion of the connecting dust and water The inner plow 75 to stir the other, and is attached to the other side of the planetary gear rotating body, the main connecting rod 76 to revolve, attached to the lower portion of the main connecting rod, and revolving along the lower edge of the dust high speed mixer. The outer plow 77, and the dust supply pipe 78 is installed on one side of the high-speed dust mixer is supplied with dust, and the water supply pipe 79 is supplied with water.

The main shaft of the motor 71 serves as a rotating shaft, the rotation holder 73 serves as a rotating shaft, the inner plow 75 rotates, and the outer plow 77 rotates.

On the other hand, in order to facilitate the mixing of the dust and water in the high-speed dust mixer, the rotational direction of the inner plow and the rotational direction of the outer plow are configured to be opposite to each other, thereby suppressing the seizure of dust to the maximum.

 As shown, a plurality of connecting rods 74 attached to the rotary holder is installed, the inner plow 75 is provided at the bottom of each connecting rod, respectively. By the way, the direction of the inner plow, that is, the direction of the flat surface 75a of the inner plow is provided differently. That is, the inner plow 75 is installed at least one of the direction in which the flat surface 75a of the inner plow is the rotation center direction of the rotation holder, and the direction of the flat surface of the inner plow is the rotational tangential direction of the rotation holder. Configure to In other words, in Figure 3, it can be seen that the direction of the inner plow connected to the rotary holder is different from each other. That is, one plow (left inner plow on the drawing) has the flat plane of the inner plow in the direction of the rotation center of the rotation holder, and the other inner plow (right inner plow on the drawing) has the flatness of the inner plow. The direction of the surface is located in the direction of rotation of the rotary holder. As such, the reason for locating the inner plows differently is to allow the dust to be easily mixed with water by the inner plow without sticking to the bottom of the high speed dust mixer.

The outer plow 77 attached to the main connecting rod coupled to the planetary gear rotating body 72 and revolving has a 'b' shape to prevent dust from settling or fixing in the lower side edge portion of the dust high speed mixer. . This is to block the sedimentation of the dust by passing the outer plow through the lower edge portion where dust is most likely to settle in the dust high speed mixer.

According to the dust comprehensive treatment system of the present invention, the dust collected through the dust collector in each part of the factory passes through the suction line by the high pressure blower, and then passes through the first gravity dust collector and the second bag filter dust collector, Natural drops are stored in the dust storage silo without a feeding device. Dust is stored continuously in the dust storage silo for several days, and if the dust is to be taken out, the vehicle is placed under the dust high speed mixer, and then the control unit (PLC panel) is operated to adjust the appropriate amount from the water supply device. Water and an appropriate amount of dust in the dust metering hopper are fed to the dust high speed mixer, mixed by internal and external plows for a predetermined time, and then directly discharged to the vehicle. At this time, the process of the final discharge of the dust stored in the dust storage silo to the vehicle is automated operation so that the consignment vehicle driver is made through a one-touch operation.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the claims and their equivalents should be construed as being included in the scope of the present invention.

10: dust collector 20: suction pipe
30: primary gravity dust collector 32: hermetic rotary valve
40: secondary bag filter dust collector 42: bag filter
50: Dust Storage Silos
60: Dust Weighing Hopper
70: dust high speed mixer
71: motor 72: planetary gear
73: rotating holder 74: connecting rod
75: inner plow
76: main connecting rod 77: outer plow
78: dust supply pipe 79: water supply pipe
90: water supply

Claims (6)

In the dust synthesis processing system,
Dust collector 10 scattered in many places;
A suction pipe passage 20 which sucks dust from the dust collector by using suction force by air pressure and transports dust by air pressure to a specific position at a rear end thereof;
It is formed at the end of the suction pipe passage, to protect the back filter of the rear end to accumulate high particulate matter sucked through the suction pipe at the bottom by gravity, and to prevent the inflow of outside air to increase the dust collection efficiency A primary gravity dust collecting device 30 having a rotary valve attached thereto;
A secondary bag filter dust collector 40 for collecting dust scattered by the primary gravity collector using a bag filter;
A dust storage silo 50 for storing the dust collected by the primary gravity type dust collector 30 and the secondary bag filter dust collector in a dry state;
A dust metering hopper 60 formed at the bottom of the dust storage silo for metering the amount of dust before mixing dust and water; And
And a dust high speed mixer (70) for supplying water from the water supply device (80), receiving dust metered from the dust metering hopper, and mixing water and dust at high speed. The method of claim 1,
The dust high speed mixer
Motor 71 installed on the upper side,
A planetary gear type rotating body 72 connected to the motor and rotating based on a main shaft;
A rotating holder 73 attached to one side of the planetary gear-type rotating body and rotating while rotating along the main axis;
A connecting rod 74 attached to the rotating holder and rotating and rotating;
An inner plow 75 attached to a lower portion of the connecting rod to stir dust and water,
A main connector 76 attached to the other side of the planetary gear-rotating body and revolving,
An outer plow 77 attached to a lower portion of the main connecting rod and revolving along a lower edge in the dust high speed mixer, and
And a dust supply pipe (78) installed at one side of the dust high speed mixer and supplied with dust, and a water supply pipe (79) supplied with water. The method of claim 2,
And a rotation direction of the inner plow and a rotation direction of the outer plow are opposite to each other in order to smoothly mix dust and water in the dust high speed mixer. The method of claim 2,
A plurality of connecting rods attached to the rotary holder are installed, and the inner plow 75 is installed at the lower portion of each connecting unit,
The inner plow 75 is provided with at least one of which the direction of the flat surface 75a is the rotation center direction of the rotation holder, and the direction of the flat surface 75a is the rotational tangential direction of the rotation holder. Dust comprehensive processing system. The method of claim 2,
The outer plow (77) is a dust overall processing system, characterized in that the 'b' shape to prevent the dust is fixed to the lower side edge portion of the high-speed dust mixer. In the dust synthesis processing method,
Inhaling dust through the dust collector 10 scattered in a number of places, maintaining the flow rate of the suction pipe using air pressure 25m / s ~ 35m / s to concentrate the collected dust in one place through the inlet pipe,
The first gravity dust collection step of maintaining the internal flow rate of 8m / s to 15m / sec to collect the dust on the high particles among the collected dust to fall naturally due to gravity and accumulate in the lower part,
A secondary bag filter dust collecting step of collecting fine dust not collected in the first gravity dust collecting step by using a bag filter;
A dust storage step of storing the dust collected in the first gravity dust collecting step and the second bag filter dust collecting step in a dry state,
A dust weighing step to weigh the amount of dust before mixing it with water,
A mixing step of receiving water from the water supply device 80, receiving the measured dust from the dust metering hopper, and mixing water and dust, and
And a discharge step of directly loading the mixing mixture of water and dust onto the vehicle.

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