KR101567328B1 - Waste treatment system - Google Patents

Abstract

The present invention relates to a waste treatment system, which comprises: a first reactor for fermenting an organic matter contained in waste; a trommel screen for separating the waste into a particle with a diameter greater than or equal to the fixed size (large particle) and a particle with a diameter smaller than or equal to the fixed size (small particle); a wind power selector for separating the particles separated as the large particle into a particle for receiving more effects of wind (light particle) and a particle for receiving less effects of wind (heavy particle); a pulverizer for pulverizing the particles separated as the light particle; a molder for molding the particles from the pulverizer; a second reactor for fermenting by storing the particles separated as the small particle; and a crusher for crushing the waste sent to one of the compositions. The wind power selector includes: a separation chamber having a spray duct and a suction duct for separating the introduced waste into the light particle and the heavy particle; and an air circulator for providing wind power for the inside of the separation chamber by spraying air through the spray duct. According to the present invention, generation of pollution and offensive odor in a work environment can be minimized in comparison with the existing technique by circulating air removed with the waste particle and reusing the same.

Description

Waste Treatment System {WASTE TREATMENT SYSTEM}

The present invention relates to a garbage disposal system.

Generally, household garbage and waste contain various substances. Therefore, techniques for separating household waste into composting objects, solid fuel objects, and landfill objects have been proposed.

1 is a configuration diagram of a conventional waste disposal system 100. As shown in FIG.

The conventional waste disposal system 100 includes a first reactor 112, a Trommel screen 113, a wind power separator 114, a crusher 115, a molding machine 116, and a second reactor 117 do.

The first reactor 112 is a Rotary Drum Reactor. In the first reactor 112 the organic material is subjected to aerobic fermentation for 48 hours. At this time, the internal temperature of the first reactor 112 is kept at 55 degrees to 60 degrees. The first reactor 112 is installed to have a slope of 1.6 degrees so as to rotate at a speed of one rotation per minute and to discharge trash after the first aerobic fermentation in 48 hours.

 The Trommel screen 113 separates the garbage from the first reactor 112 according to the particle size. For example, garbage is separated into particles of 30 mm or more and particles of 30 mm or less while passing through the Trommell screen (113).

The wind separator 114 separates the particles of 30 mm or more into light weight and heavy weight using wind power. Here, the particles flying away by the wind are called lightweight, and the particles that are less influenced by the wind are called heavyweight. At this time, the separated weight is buried.

The crusher 115 crushes the particles separated by the lightweight water into the particles of 60 mm or less in the wind power separator 114.

The molding machine 116 shapes particles of 60 mm or less from the crusher 115 into particles of an appropriate size to produce a fuel of thermal power.

On the other hand, the particles of 30 mm or less separated from the Trommelscreen 113 are mostly accommodated in the second reactor 117 as organic materials (for example, particles generated from toilet tissue or food waste).

The second reactor 117 rotates at an appropriate number of revolutions per minute and discharges the collected organic waste material after secondary aerobic fermentation for 24 hours. The organic waste material discharged from the second reactor (117) becomes a raw material for the compost.

However, the conventional wind power sorter 114 as described above has the following problems.

First, in the process of sorting the garbage, a large surface area or a long length of garbage is placed or jammed on the separating member and the inner device for separating the light weight and the heavy material, so that the operation error of the wind power sorter 114 and the garbage screening efficiency Can be degraded.

Second, by discharging the waste particles generated inside the wind turbine separator 114 to the outside, odor and contamination of the working environment may occur due to the waste particles in the discharged air.

Korean Patent Publication No. 10-2011-0090595 Korean Patent Laid-Open No. 10-2005-0040265 Korean Patent No. 10-0769241 Domestic registration utility model 20-0426396 Korean Patent No. 10-0582707

The present invention has the following objectives.

First, it prevents deterioration of screening efficiency of waste by wind.

Second, odor generation and pollution in the working environment are prevented due to the dust particles in the air generated by wind power.

According to an aspect of the present invention, there is provided a garbage disposal system comprising: a first reactor for fermenting organic matter contained in waste; A trrommel screen for separating waste from the first reactor into particles having a diameter of a certain size or larger (hereinafter referred to as "large water") and particles having a diameter of a certain size or smaller (hereinafter referred to as "small water"); The particles separated by the large water in the Trommelscreen are separated into particles (hereinafter referred to as "light weight") which are highly influenced by the wind and particles which are less influenced by the wind than the light weight Wind turbine; A crusher for crushing the particles separated by the light weight in the wind power sorter into particles having diameters smaller than a predetermined reference; A molding machine for molding particles having diameters smaller than a predetermined reference value from the grinder into a predetermined shape for use as fuel for thermal power; A second reactor for receiving and fermenting particles separated by small water in a grit-rumel screen; And a crusher for crushing trash to be sent to any one of the above-described structures, wherein the incoming windshield is divided into a lightweight water and a heavyweight, and the air is injected into the injection duct through which the air is injected, A separation chamber having a duct; An air circulator that sucks air from the suction duct and then supplies air to the interior of the separation chamber by injecting air through the injection duct; A separating member for separating the light weight and the heavy material from each other inside the separation chamber; A rotating roller for sending the waste placed on the upper end of the separating member to one side of the separating member; And a drive motor for rotationally driving the rotating roller; Wherein the air circulator includes: a suction fan for sucking air in the separation chamber from the suction duct; A jet fan for jetting air into the separation chamber through the jet duct; And a dust filter for filtering scattered dust from the air sucked by the suction fan; And a cyclone separating the particulate matter contained in the air by centrifugal force from the air sucked by the suction fan, wherein the separating member separates the particulate matter contained in the air from the air blown through the injection duct And a lightweight water separating space in which a heavy object is dropped adjacent to a point where the waste is dropped and a lightweight water separating space located at a dropping point distant from the heavy object separating space, A first trommel screen disposed at a rear end of the first reactor, the first trommel screen being adapted to control the separation space of the light weight and heavy objects; And a second trommel screen disposed at a rear end of the second reactor, wherein the wind selector comprises: a first wind turbine positioned at a rear end of the first trommel screen; A second wind turbine positioned at a point where the heavy material separated from the first wind turbine is crushed and supplied; And a third wind power separator disposed at a rear end of the second trommel screen, wherein the shredder comprises: a first shredder located at the front end of the trash processing; And a second crusher positioned at a point where a heavy object separated from the first wind power separator is supplied, wherein the waste particles supplied from the second reactor are separated by small water and large water by the second trommel screen And the separated large water is separated into light weight and heavy weight by the third wind power discriminator and the separated light weight is supplied to the crusher and the weight separated from the first wind power discriminator is crushed by the second crusher And the shredded garbage is separated into a heavy weight and a light weight by the second wind power sorter, and the separated light weight can be supplied to the first trommel screen.

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The present invention has the following effects.

First, it minimizes pollution and odor in the working environment compared with the conventional technology in which the air containing waste particles is discharged outside the wind turbine by circulating the air from which the dust particles have been removed by using a filter and a cyclone of a wind power sorter, can do.

Second, it is possible to prevent a malfunction of a device and a reduction in the efficiency of screening of garbage, which may occur due to the rotation of a rotating roller provided at the upper end of a separator of a wind power separator, .

Third, the amount of landfill is reduced because some of the garbage goes through the return line and the sorting line and the recycling resources increase.

Fourth, pure organic materials separated from glass or iron scraps are selected as raw material for compost, and quality of compost is improved.

1 is a configuration diagram of a conventional waste disposal system 100. As shown in FIG.
2 is a configuration diagram of a garbage disposal system 200 according to an embodiment of the present invention.
3 shows a wind turbine according to an embodiment of the present invention.
Figure 4 schematically illustrates the operation of a rotating roller and a branch member according to an embodiment of the present invention.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for simplicity of explanation.

<Configuration of waste disposal system>

2 is a configuration diagram of a garbage disposal system 200 according to an embodiment of the present invention.

The trash processing system 200 according to an embodiment of the present invention includes a first reactor 210, a trommel screen 220a and 220b, wind detectors 230a, 230b and 230c, a crusher 240, a molding machine 250, A second reactor 260, and a crusher 270a and 270b.

The basic line includes a first crusher 270a, a first reactor 210, a first trommel screen 220a, a first wind power sorter 230a, a crusher 240, a molding machine 250, a second reactor 260, .

The first crusher 270a crushes the trash. So long and tough garbage is finely shredded. In this first crusher 270a, the crushed waste is sent to the first reactor 210.

In the first reactor 210, the organic material contained in the waste is subjected to primary aerobic fermentation for 48 hours.

The first trommel screen 220a separates the garbage from the first reactor 210 according to the particle size. For example, the garbage is divided into particles having a diameter equal to or greater than a predetermined size (for example, particles having a diameter of 30 mm or more, hereinafter referred to as "large water") and a diameter (For example, particles having a diameter of 30 mm or less, hereinafter referred to as "small water"). Here, the reference size for separating the particles can be changed as needed.

The first wind power sorter 230a collects particles having a diameter of 30 mm or more by wind force (hereinafter referred to as "heavy weight") and particles that are less influenced by wind than a heavy weight ).

The first wind power sorter 230a has a separating member 233 as shown in FIG. Further, the separating member 233 can be moved in the lateral direction as shown in the drawing, so that the space defined inside the separating member 233 can be adjusted. As shown in FIG. 5, the garbage coming to the first wind power sorter 230a is separated into particles (light weight) that fly far away and particles (heavy weight) that can not fly far away due to the wind to be blown. At this time, the lightweight object and the heavy object are separated by the separating member 233. Therefore, the separation of the light weight and the heavy weight can be managed by the movement of the separating member 233.

The crusher 240 crushes the particles separated by the light weight in the first wind power sorter 230a into particles of 60 mm or less.

The molding machine 250 molds particles of 60 mm or less from the crusher 240 into particles of an appropriate size to produce a fuel of thermal power.

The second reactor 260 receives the small water separated from the first trommel screen 220a and performs secondary aerobic fermentation for 24 hours.

The return line of the garbage disposal system 200 returns some of the weight separated by the first wind power sorter 230a to the first trommel screen 220a. To this end, the return line includes a second crusher 270b and a second wind turbine 230b.

The second crusher 270b crushes the heavy object coming from the first wind power sorter 230a.

The second wind power sorter 230b separates the garbage coming from the second shredder 270b by the wind power into the heavy weight and the light weight. The garbage separated by the light weight in the second wind power sorter 230b is returned to the first trommel screen 220a.

On the other hand, the garbage separated by the heavy material in the second wind power sorter 230b is subject to landfill.

Further, the selection line of the waste disposal system 200 selects the raw materials of the compost from the waste discharged from the second reactor 260. This sorting line includes a second trommel screen 220b and a third wind force sorter 230c.

The second trommel screen 220b is a screen for collecting the garbage from the second reactor 260 into particles having a diameter of a predetermined size or larger (for example, particles having a diameter of 6 mm or more) and particles having a predetermined size or smaller Particles having a diameter of 6 mm or less).

Particles having a diameter of 6 mm or more in the second trommel screen 220b are provided as a raw material for the compost.

The third wind power sorter 230c separates the particles having a diameter of 6 mm or more from the second trommel screen 220b into heavy objects and light objects by wind force. Here, particles having a diameter of 6 mm or more in the second Trommell screen 220b are mostly glass broken particles, wood chips, thin vinyl, and the like. Therefore, heavy objects such as glass broken particles are subject to landfill.

Lightweight materials such as wooden pieces or thin vinyls are then sent to the crusher 270.

Here, the second wind power sorter 230b and the third wind power sorter 230c may be configured in the same manner as the first wind power sorter 230a.

<Construction of wind turbine selector>

FIG. 3 illustrates a wind turbine according to an embodiment of the present invention, and FIG. 4 schematically illustrates operation of a rotating roller and a branch according to an embodiment of the present invention.

The wind turbine 230 of the garbage disposal system 200 according to an embodiment of the present invention

A separation chamber 231, an air circulator 232, a separation member 234, a rotation roller 234, and a driving motor 235. [

The separation chamber 231 may further include a spray duct 231a through which air is injected into the waste to be injected and a suction duct 231b through which the air inside the separation chamber 231 is sucked.

The air circulator 232 is provided with a suction fan 232a for sucking the air inside the separation chamber 231 through the suction duct 231b and jetting the sucked air to the spray duct 231a, A cyclone 232c for separating the dust particles in the air by the centrifugal force and a spray fan 232d for spraying the air from which the dust particles D have been removed into the inner space of the separation chamber 231 .

Here, the air circulator 232 can be independently configured as a suction fan 232a, a jet fan 232d and a filter 232b or a suction fan 232a, a jet fan 232d and a cyclone 232c In the present embodiment, an air circulator 232 including a suction fan 232a, a spray fan 232d, a filter 232b, and a cyclone 232c will be described.

At this time, a blow fan can be used for the suction fan 232a and the spray fan 232d.

The separation member 233 can separate the waste put into the separation chamber 231 into a heavy material and a lightweight material through air injection of the injection duct 231a by the injection fan 232d.

As shown in FIG. 4, the separating member 233 can separate the light weight LW from the waste W which is blown away by the air to be blown and the heavy weight HW which can not fly far away.

The separating member 233 is rotatably driven by the rotating roller 234 provided at the upper end to prevent the lightweight material LW having a large area or a long length from being caught on the upper end of the separating member 233, It is possible to send the lightweight water LW caught on the upper end of the partition 233 to the partitioned space.

At this time, the rotating roller 234 may further include a driving motor 235 receiving the power to rotate.

As shown in FIG. 4, the separating member 233 moves in the (a) direction to control the separation space between the light weight and the heavy weight in the separation chamber 231.

That is, the jetting duct 231a of the wind power sorter 230 injects air to the garbage which is injected and dropped from the upper part. At this time, the garbage is divided into a heavy material (HW) hardly influenced by the air to be jetted, The light weight LW is divided into the light weight LW and the light weight LW at the lower portion of the separation chamber 231 adjacent to the place where the waste W is charged, And falls to the lower portion of the remote separation chamber 231.

At this time, the separating member 233 separates the weight HW and the light weight LW from the point where the heavy weight HW falls and the light weight LW falls.

The air mixed with the dust particles D by the air injection is sucked into the suction duct 231b by the rotation of the suction fan 232a.

Thereafter, air containing the dust particles D is transferred to the cyclone 232c by the suction fan 232a. As the dust particles D rotate inside the cyclone 232c, the dust particles D fall downward due to the centrifugal force And the air goes out in the upward direction.

The air having passed through the cyclone 232c passes through the filter 232b before the jetting and the air from which the dust particles D have been removed is jetted to the jetting duct 231a through the jetting fan 232d, The air inside the selector 230 is circulated.

As a result, the present invention minimizes pollution and odor in the working environment as compared with the conventional technology in which air containing waste particles is discharged to the outside by circulating and reusing air from which waste particles have been removed by using a filter and a cyclone Which can prevent an operation error of the apparatus and a reduction in the efficiency of screening of the garbage, which can be caused by the engagement of the light member having a long length or a large surface area with the upper end of the separation member through the rotation drive of the rotary roller provided at the upper end of the separation member It is possible to reduce the amount of waste landfilled because it is possible to produce an improved quality compost by selecting pure organic materials separated from materials such as glass or iron pieces as raw materials for compost, Provide a garbage disposal system.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And the scope of the present invention should be understood as the following claims and their equivalents.

200: Garbage disposal system
210: first reactor
220a, 220b: Trommel screen
230 (230a, 230b, 230c): Wind power selector
231: Separation chamber
231a: injection duct
231b: Suction duct
232: air circulator
232a: Suction fan
232b: filter
232c: Cyclone
232d: Injection fan
233: separating member
234:
235: drive motor
240: crusher
250: Molding machine
260: Second reactor
270a and 270b:
B: Conveyor belt
W: Waste
LW: light weight
HW: Weight
D: Waste particles

Claims (5)

A first reactor for fermenting an organic substance contained in the trash;
A trrommel screen for separating waste from the first reactor into particles having a diameter of a certain size or larger (hereinafter referred to as "large water") and particles having a diameter of a certain size or smaller (hereinafter referred to as "small water");
The particles separated by the large water in the Trommelscreen are separated into particles (hereinafter referred to as "light weight") which are highly influenced by the wind and particles which are less influenced by the wind than the light weight Wind turbine;
A crusher for crushing the particles separated by the light weight in the wind power sorter into particles having diameters smaller than a predetermined reference;
A molding machine for molding the particles having diameters below a predetermined reference value from the crusher into a predetermined shape for use as fuel for thermal power;
A second reactor for receiving and fermenting particles separated in small water from the Trommel screen; And
And a shredder for shredding the garbage to be sent to any one of the above-
The wind power sorter comprises:
A separation chamber having an inlet duct into which air is injected and an intake duct into which air is sucked, the inlet duct being divided into a light weight and a heavy weight;
An air circulator that sucks air from the suction duct and then supplies air to the interior of the separation chamber by injecting air through the injection duct;
A separating member for separating the light weight and the heavy material from each other inside the separation chamber;
A rotating roller for sending the waste placed on the upper end of the separating member to one side of the separating member; And
A driving motor for rotationally driving the rotating roller; Lt; / RTI &gt;
The air circulator
A suction fan for sucking air in the separation chamber from the suction duct;
A jet fan for jetting air into the separation chamber through the jet duct; And
A dust filter for filtering scattered dust from the air sucked by the suction fan; And
Wherein the air circulator includes a cyclone separating the particulate matter contained in the air by centrifugal force from the air sucked by the suction fan,
Wherein the separation member includes a weight separation space in which the weight drops due to the influence of the air injected through the injection duct in the injection fan and is adjacent to a point where the waste is injected, Moving between lightweight water separation spaces located at a dropping point farther than the heavy material separation space to adjust the separation space of the light water and heavy materials,
The Trommel screen may comprise:
A first trommel screen positioned downstream of the first reactor; And
And a second trommel screen positioned downstream of the second reactor,
The wind power sorter comprises:
A first wind power separator located at a rear end of the first trommel screen;
A second wind turbine positioned at a point where the heavy material separated from the first wind turbine is crushed and supplied; And
And a third wind power separator disposed at a rear end of the second trommel screen,
The crusher includes:
A first crusher positioned at the front end of the waste treatment process; And
And a second crusher positioned at a point where the heavy material separated from the first wind power separator is supplied,
The waste particles supplied from the second reactor are separated into small water and large water by the second Trommel screen and the separated large water is separated into light water and heavy water by the third wind energy separator, Water is supplied to the pulverizer,
The weight separated from the first wind power separator is crushed by the second crusher, the crushed trash is separated by the second wind energy separator into a heavy material and a light material, and the separated light material is passed through the first trommel screen Characterized in that
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