KR20220168426A - Wind Separator with Waste Recycling Screen Sorter - Google Patents

Abstract

The present invention relates to a wind power sorter which sorts waste generated at industrial sites after crushing it so that it can be recycled. More specifically, a screen sorter has a vibration motor installed on one side to apply vibration to the sorting screen to sort the shredded waste by flowing down the slope and causing dust and fine shredded waste to fall to the bottom discharge port, and the unsorted shredded waste slides along the slope of the sorting screen and flows into the entrance of the wind sorter, where it is sorted into combustible waste and non-combustible waste by the wind power sprayed from the blower pipe. The present invention relates to a wind power sorter having a waste recycling screen sorter which crushes waste, separates combustible waste and non-combustible waste, uses the combustible waste as fuel, simplifies the sorting process so that non-combustible waste can be recycled as raw materials for products, and prevents environmental pollution by waste.

Description

Wind separator with waste recycling screen sorter {Wind Separator with Waste Recycling Screen Sorter}

The present invention relates to a wind power separator that sorts wastes generated at industrial sites after crushing them so that they can be recycled, and more specifically, cars that are scrapped, parts that combine metal and plastic collected from industrial sites, rubber and plastic or metal After shredding waste such as attached parts, combustible waste and non-combustible waste are sorted, flammable waste is used as fuel, and non-combustible waste is recycled as a raw material for products, simplifying the sorting process and environmental pollution by waste It relates to a wind power separator having a waste recycling screen separator that can prevent

In general, a blower type sorting device applies wind power to falling shredded waste using a blower, scattering impurity particles and various wastes included in heavy metal members, and sorting by weight and material to select recyclable waste.

Industrial wastes sorted by wind power are mixed with light and burnable lightweight wastes such as paper, vinyl, plastic, and rubber, and non-burnable and heavy heavy wastes such as metals and non-ferrous metals. It is separated into combustible waste.

That is, packaging containers of food stores or construction materials used in construction sites contain a significant amount of components that can be recycled.

However, since these waste materials are primarily manually processed to select recyclable and non-recyclable items, and all the rest are disposed of collectively, this results in considerable wastage of resources.

In addition, in the case of automobiles, bulky and purely metal-only parts or plastic-only parts can be separated and recycled in the process of scrapping, but among parts, rubber, film coating, plastic, etc. Since it is not economical if a person manually does each one inserted into it, it is uneconomical to put it in a crusher and crush it, then sort it by weight through a sorter consisting of multiple processes, and then sort it again by material. There is this complex problem.

Looking at the prior art in this field, Patent Registration No. 10-1077101 (registration date October 20, 2011) "waste recycling closed circuit internal circulation wind power sorting device" (hereinafter referred to as "prior art") is shown in Figure 1 In the wind power sorter for classifying heavy waste and light waste as shown in, Inlet 10 into which heavy waste or light waste is input and an input control valve 11 for adjusting the input amount of waste is installed; a separation pipe 20 installed below the inlet 10 and reducing the descending speed by colliding wastes introduced through the inlet with an inner wall formed in a zigzag shape and dispersing agglomerated wastes; a blowing pipe 70 connected to the lower side of the separation pipe 20 and blowing strong wind injected from a circulation fan 80 installed at one end to the separation pipe 20; a first discharge port 30 formed at the lower end of the separation pipe 20 and lowered from the upper side to discharge heavy weight waste such as bottles and cans that cannot be pushed up by wind; a circulation fan 80 installed at one end of the blower pipe 70 to inject strong wind into the blower pipe 70; A sorting unit (50) connected to the upper side of the separation tube (20), which moves up the light waste by the wind injected from the blower pipe (70), and generates a cyclone rotating along the inner wall to classify the light waste from the wind. )Wow; a second outlet 40 formed at a lower end of the sorting unit 50 and through which the light waste classified in the sorting unit 50 is discharged; A circulation pipe 60 installed on the upper side of the classification unit 50 and having one side connected to the circulation fan 80 to circulate wind and fine dust classified by the classification unit 50 toward the circulation fan. In the classification unit 50, the wind introduced through the separation pipe 20 rotates inside the classification unit 50 to form a cyclone, and the classification unit 50 generates Light waste is classified through the cyclone, light waste such as paper or vinyl having a certain weight is discharged through the second outlet 40, and very light materials such as fine dust pass through the circulation pipe 60. A configuration that flows into the circulation fan 80 has been disclosed.

The prior art simply sorts heavy waste and light waste, and since fine classification is not performed, there is a problem in that the circulation fan of the blower and the discharge valve on the outlet side frequently fail.

That is, in the prior art, the shredded waste introduced through the inlet is dropped into a zigzag separation pipe, and at the same time, heavy waste is dropped by the wind blowing from the blower pipe and discharged to the first discharge port, and light weight is blown from the bottom. The main is configured to flow into the classification unit of the silo type by the strength of the wind, and then fall from the classification unit and be discharged through the second discharge port.

However, among the lightweight wastes flowing into the sorting unit by the wind blowing through the blower pipe, heavy weight wastes are discharged through the second discharge port, but among the light wastes, light wastes are returned to the circulation pipe along the wind flowing into the sorting unit and flowed into the circulation fan. there is.

That is, the wind blown hard through the blower pipe flows into the sorting unit together with the lightweight waste, and then the lightweight waste must be discharged through the second outlet, but some of the lighter waste is returned along with the wind through the lower part of the circulation pipe along the circulating wind. There is a problem in that abrasion of the circulation fan is caused by bumping into the circulation fan tube and eccentric pressure is applied, causing severe noise when the circulation fan operates.

In addition, not all of the wind introduced into the classification unit is discharged through the circulation pipe, but some of the wind swirls around the inner ceiling of the classification unit and the outer periphery of the bottom of the circulation pipe, so that some light waste is swirled together with the wind, thereby reducing dust and noise caused by dust. There are problems that arise.

In particular, in the prior art, heavy wastes are discharged through the first outlet and light wastes are separated into two types so that they are discharged through the second outlet. Since the lightweight waste discharged through the second discharge port is mixed with small glass, plastic, light wood, light stone, etc., it cannot be sorted into flammable and non-flammable wastes, so there is a problem in that the object to be solved in the prior art cannot be solved.

Republic of Korea Patent Registration No. 10-1077101

The present invention is to solve the above problems, and after crushing waste such as scrapped cars, metal and plastic parts collected from industrial sites, rubber and plastic or metal attached parts, combustible waste and non-combustible waste The purpose of making the sorting process simple and easy so that flammable waste can be used as fuel and non-flammable waste can be recycled as raw materials for products by sorting by

In addition, the present invention is to improve the working environment by subdividing the sorting and preventing dust and dust from being circulated by first sorting the shredded waste with a screen sorter before sorting it with a wind sorter, and then sorting it with a wind sorter. It relates to a wind separator having a waste recycling screen separator for the purpose of enabling.

As a means for achieving the above object, the present invention includes a screen sorter formed to be inclined to one side and vibrated by a vibration motor to sort shredded waste;

a wind-powered separator, one end of which is connected to an inlet of the screen separator and capable of sorting shredded waste by wind from a blower;

a blower tube installed at the lower part of the inlet of the wind power separator and blowing the air supplied from the air transfer tubes on both sides connected to the blower to scatter the incoming shredded waste;

a clearance adjusting unit configured to adjust the distance between the outlets according to the weight of the shredded waste scattered by the wind power sprayed from the blast pipe;

an air discharge port capable of discharging vortex air formed in the inner space of the wind turbine separator to the outside;

It is installed in the inner space of the wind turbine separator and is characterized by a configuration including a roller and a partition panel installed to enable left and right space adjustment by a gap adjusting unit.

The gap control unit,

a support panel for supporting both ends of the roller and the partition shaft, and a horizontal adjustment member and a vertical adjustment member for adjusting the gap by moving the support panel vertically and horizontally;

a fixing bracket installed on both outer surfaces of the wind turbine separator and fixed to support the horizontal adjustment member and the vertical adjustment member;

An L-shaped bracket installed at the center of the upper surface of the fixing bracket to support one end of the horizontal adjustment member and an upper end of the vertical adjustment member;

It is characterized in that it includes a fixing screw member installed on one side of the upper surface of the fixing bracket so that the horizontal bracket having one end supported by the L-shaped bracket is inserted and reciprocated horizontally to the left and right.

It is characterized in that it includes a support spring connected to the partition shaft so that one end is connected to a shaft fixing bracket supporting both ends of the partition shaft and the other end is fixed to the support panel to have a bearing capacity of the partition panel.

It is characterized in that a branch pipe is installed to be connected to the blower discharge port installed on the upper part of the wind power separator and branch the wind to both air transfer pipes.

It is characterized in that a seat cover is installed at the entrance of the wind power separator to block the surrounding space when connected to the end of the screen separator.

In this way, the present invention crushes waste such as metal and plastic parts, rubber and plastic, or metal-attached parts collected from automobiles or industrial sites to be scrapped, and then sorts flammable waste and non-combustible waste, and flammable waste is fuel It is intended to provide a wind power separator having a screen separator for recycling waste, which makes the sorting operation simple and easy so that non-combustible waste can be recycled as a raw material for products and prevents environmental pollution caused by waste.

The present invention crushes waste such as scrapped cars or metal and plastic parts collected from industrial sites, rubber and plastic or metal-attached parts, and then sorts flammable waste and non-flammable waste to use the flammable waste as fuel In addition, non-combustible waste has the effect of minimizing discarded waste by simplifying the sorting process so that it can be recycled as a raw material for products.

In addition, the present invention sorts dust and fine waste with a screen sorter before sorting the shredded waste with a wind separator, and then sorts it with a wind separator to subdivide the sorting of waste and prevents dust and dust from being circulated, thereby creating a working environment. has the effect of improving

1 is a cross-sectional view showing an internal circulation screening state showing a conventional wind power separator.
Figure 2 is a perspective view showing a coupled state of the screen sorter and the wind screen sorter of the present invention.
Figure 3 is a side view showing a coupled state of the screen sorter and wind screen sorter of the present invention.
Figure 4 is a perspective view showing the wind separator of the present invention.
Figure 5 is a side view showing the wind separator of the present invention.
Figure 6 is a plan view showing the wind separator of the present invention.
Figure 7 is an excerpt showing a gap control unit installed on both sides of the wind separator of the present invention.
Figure 8 is an excerpt showing the connection state of the fixed shaft bracket and the support spring of the clearance adjustment unit of the present invention.
Figure 9 is an exemplary view showing the wind direction of the wind selector according to the present invention.

Hereinafter, the present invention will be described in detail based on the accompanying drawings.

According to the present invention, vehicle wastes generated when scrapping cars and wastes such as metal, plastic, paper, and rubber generated at industrial sites can be separated by wind power.

Among vehicle wastes generated when scrapping cars or wastes generated at industrial sites, it is very difficult to classify wastes by material in the case of mixed wastes such as metal, plastic, paper, and rubber.

In particular, in the scrapping industry, when the price of waste plastic and waste metal is high, it is economical even if the separation operation is manually separated. Since it is not practical to separate the parts of the scrapped vehicle manually as they fall apart, a method of putting the scrapped vehicle in its entirety into a crusher and shredding it has recently been used.

Therefore, in the case of wastes in which various materials are combined, it is more efficient to crush them at once and then separate them with a wind separator.

That is, by scattering impurity fine particles and various wastes included in heavy metal members, it is possible to select recyclable wastes by weight and material.

Industrial wastes sorted by wind power are mixed with light and burnable light wastes such as paper, vinyl, plastic, and rubber, and non-burnable heavy heavy wastes such as metals and non-ferrous metals. Waste to be buried is minimized by separating waste and combustible waste, combustible waste is used as fuel, and non-combustible waste is sorted and recycled to prevent environmental pollution.

Figure 2 is a perspective view showing a combined state of the wind screen sorter and the screen sorter of the present invention, Figure 3 is a side view showing the combined state of the wind screen sorter and the screen sorter of the present invention.

In the present invention, in sorting light waste and heavy waste and at the same time sorting into recyclable waste and combustible waste, the collected waste is first sorted, and then the remaining waste is crushed into a predetermined size, and the screen sorter (100) of the present invention Selected by the wind power selector 200 having a.

The screen sorter 100 of the present invention is formed to be inclined to one side, and an input hopper 110 into which shredded waste 300 is introduced is installed at one end with a high inclination.

In addition, in the screen sorter 100, the end of the low inclination side is installed to be connected to the inlet 210 of the wind screen sorter 200.

The vibration motor 112 installed on one side of the screen sorter 100 applies vibration to the sorting screen 114 so that the shredded waste 300 vibrates and flows down the inclined surface, sorting out only dust and fine shredded waste, The shredded waste 300 that falls into the discharge port 115 and is not sorted slides along the inclined surface of the sorting screen 114 and flows into the inlet 210 of the wind power separator 200.

A tunnel-shaped cover 111 is installed above the sorting screen 114 of the screen sorter 100 to prevent dust from scattering to the outside.

The shredded waste 300 introduced from the sorting screen 114 is scattered by the wind (wind power) supplied from the blower 220 installed above the blower separator 200, so that it can be sorted by weight.

The wind power supplied from the blower 220 is guided to the air delivery pipe 222 on both sides and injected through the blowing pipe 223 installed at the lower part of the inlet 210 of the wind power separator 200, and at the same time from the screening screen 114 to the wind separator ( 200) While the shredded waste 300 flowing into the inlet 210 is scattered by wind power, it is separated according to its weight.

The shredded waste 300 scattered by the wind power (wind) injected from the blower pipe 223 pulls the partition panel 232 forward or rearward according to the adjustment of the gap control unit 240 installed on both sides of the wind power separator 200. It is possible to adjust the outlet 213 formed on the bottom by pushing it.

The wind power that flows into the inner space 212 of the wind power separator 200 scatters the shredded waste 300 and discharges it through a plurality of outlets 213, and at the same time, some wind remains inside the space 212 so that the wind power It is possible to discharge the vortex air formed by the air outlet 214 to the outside.

As such, the turbulent air formed inside the wind power separator 200 is discharged to the outside through the air outlet 214, so that the shredded waste 300 falling into the outlet 213 is discharged without being disturbed.

The roller 230 and the partition panel 232 installed in the inner space 212 of the wind power separator 200 are installed so that left and right space can be adjusted by the gap adjusting unit 240, depending on the type of shredded waste 300. The scattering distance can be adjusted.

Figure 4 is a perspective view showing the wind selector of the present invention, Figure 5 is a side view showing the wind selector of the present invention, Figure 6 shows a plan view showing the wind selector of the present invention.

The wind power separator 200 of the present invention is configured such that one end of the screen separator 100 formed to be inclined to one side inlet 210 is connected, so that the shredded waste 300 primarily sorted in the screen separator 100 is transferred to the wind power separator In (200), the second screening is configured.

Perforations 215 are formed on the side plates on both sides of the body of the wind turbine separator 200 to penetrate the space 212 at the same position, and the support panels 241 of the clearance adjusting part 240 are formed in the perforations 215. Corresponds to both sides of the outer surface.

Both ends of the support panels 241 corresponding to the perforation 215 are inserted into both ends of the roller 230 shaft and the partition shaft 231, and the ends thereof are the roller shaft fixing member 249 and the shaft fixing bracket 248) is fixed by the combination of

At this time, the support panel 241 corresponding to the perforation part 215 is not fastened to the body of the wind power separator 200 around the perforation part 215.

The support panel 241 is connected to the lower end of one side of the vertical adjustment member 242 in a state in which it is not fastened to the body of the wind turbine separator 200, and the upper end of the vertical adjustment member 242 is a fixed bracket fixed to the outer surface of the body of the wind turbine separator 200. It is bolted to the L-shaped bracket 245 stacked in the long hole of (244).

A fixing screw member 246 is installed on the upper surface of one side of the fixing bracket 244, and the leveling member 243 is inserted in a bolt manner, and one end of the leveling member 243 is bolted to the L-shaped bracket 245. do.

The support panel 241 supported by the vertical adjusting member 242 of the clearance adjusting unit 240 configured as described above is a roller 230 installed horizontally in the space 212 of the wind power separator 200 and a partition shaft 231 Since the end of the ) is fastened to the roller shaft fixing member 249 and the shaft fixing bracket 248 in a state where it is inserted, in this process, the support panel 241 cuts through the perforated parts 215 on both sides of the outer surface of the body of the wind power separator 200. It covers and adheres to the outer surface of the body at the same time.

At this time, the support panel 241 is connected to the lower end of the vertical adjusting member 242, and the upper end of the vertical adjusting member 242 is fastened together with a fixed bracket 244 and an L-shaped bracket 245 stacked on the fixed bracket 244. state, so there is no flow.

In addition, the roller 230 and the partition shaft 231, both ends of which are inserted into the support panel 241 and fastened to the roller shaft fixing member 249 and the shaft fixing bracket 248, are the clearance adjusting unit in the space portion 212 ( 240), it can be adjusted by moving left and right.

That is, when the roller 230 and the partition shaft 231 are moved to the left or right within the wind power separator 200, the horizontal adjustment member 243 is fixed with the vertical adjustment member 242 in a state where the upper bolt fastening is loosened. When rotated at 246 and pushed to the left or pulled to the right, the roller 230 and the partition shaft 231 are moved, and can be adjusted using the vertical adjusting member 242 at the same time.

At this time, the partition panel 232 coupled to the partition shaft 231 is moved along with the movement of the partition shaft 231.

In addition, the moving distance between the roller 230 and the partition shaft 231 using the gap adjusting member 240 can be arbitrarily adjusted as needed.

Briefly looking at the configuration of the above-described clearance adjusting unit 240, the support panel 241 into which both ends of the roller 230 and the partition shaft 231 are fitted;

a vertical adjustment member 242 and a horizontal adjustment member 243 for adjusting the distance by moving the support panel 241 vertically and horizontally;

Fixed brackets 244 installed on both outer surfaces of the body of the wind turbine separator 200 and fixed to support the vertical adjustment member 242 and the horizontal adjustment member 243;

An L-shaped bracket 245 installed on the upper surface of the fixing bracket 244 to support one end of the horizontal adjustment member 243 and an upper end of the vertical adjustment member 242;

It consists of a fixing screw member 246 installed on one side of the upper surface of the fixing bracket 244 so that the horizontal adjusting member 243 supported by one end of the L-shaped bracket 245 can move left and right horizontally.

In addition, the branch pipe 221 connected to the discharge port of the blower 220 installed on the upper part of the wind power separator 200 allows wind to be branched to the air delivery pipe 222 installed on both sides (see FIG. 6).

The air conveying pipe 222 is connected to the blowing pipe 223 installed below the inlet 210 of the wind power separator 200, and the blowing pipe 223 is the shredded waste 300 flowing into the inlet 210 of the wind power separator 200 Spray it with wind to disperse it.

The shredded waste 300 scattered by the wind (wind power) sprayed from the blower pipe 223 is discharged through an outlet 213 formed at the bottom of the inner space 212 of the wind power separator 200 according to the control of the gap control unit 240. It is possible to adjust the scattering distance and discharge amount of the shredded waste 230 according to the weight by adjusting the front and rear left and right around the partition panel 232.

In addition, the wind turbine separator 200 forms an air outlet 214 on the upper side opposite to the inlet 210 so that the vortex air formed in the space 212 can be discharged to the outside.

The shaft fixing bracket 248 supporting both ends of the partition shaft 231 and the support spring 247 connected to the support panel 241 have the bearing capacity of the partition panel 232, so that the shredded waste 232 is scattered by wind power If it is prevented from being pushed by the wind pressure when doing so, it is returned by the support spring 247 even if it is pushed by the strength of the wind.

In addition, when the inlet 210 of the wind power separator 200 is connected to the end of the screen separator 100, a seat cover 211 is installed to prevent a separation generated around the inlet.

The seat cover 211 installed at the inlet 210 of the wind selector 200 blocks dust and light shredded waste scattered by the wind blowing from the blower pipe 223 from scattering to the outside of the inlet 210.

In addition, a viewing window 233 is formed on one side of the body on both sides of the wind turbine separator 200 of the present invention so that the inside can be seen through, and the viewing window 233 is opened and closed so that the inside can be managed by putting a hand inside if necessary. is formed

Figure 7 is an excerpt showing the clearance control unit installed on both sides of the wind selector of the present invention, Figure 8 is an excerpt showing the connection state of the fixed shaft bracket and the support spring of the clearance adjustment unit of the present invention.

7 and 8 show the gap control unit 240, and the support panel 241 to which both ends of the roller shaft and the partition shaft 231 are coupled is used by the vertical adjustment member 242 and the horizontal adjustment member 243. It is configured to adjust the vertical and horizontal spacing.

An L-shaped bracket 245 is stacked on the central part of the upper surface of the fixing bracket 244, and a vertical adjusting member 242 for adjusting the vertical clearance is bolted to the bottom surface of the L-shaped bracket 245, and the side of the L-shaped bracket 245 The horizontal adjustment member 243 for adjusting the left and right clearance is installed.

The horizontal adjusting member 243 is inserted into the fixing screw member 246 fixed to the top of one side of the fixing bracket 244, and one end is fixed to the side of the L-shaped bracket 245 with bolts so that it can move left and right (see FIG. 7). ).

In addition, the support spring 247 shown in FIGS. 7 and 8 supports the partition shaft 231, prevents it from being pushed to one side by wind power and has a supporting force, and has a support panel 241 at one end and a shaft fixing bracket 248. ) is connected so that the partition panel 232 can be supported by the elastic force of the support spring 247.

9 is an exemplary diagram showing the wind direction of the wind power separator according to the present invention, and the crushed waste flowing from the screen separator 100 in a state in which the screen separator 100 is coupled to the inlet 210 of the wind power separator 200 ( 300) The shredded waste 300 introduced as the wind blows from the bottom falls in front of the heavy ones by the strength of the wind (wind power), and the lighter the weight, the farther away and then falls, so that the shredded waste can be sorted will be.

That is, a blower pipe 223 is installed at the lower part of the inlet of the wind power separator 200, and the wind generated by the blower 220 is introduced into both ends of the blower pipe 223 through the air transport pipes 222 on both sides of the wind power separator 200. The shredded waste 300 introduced through the inlet 210 by being sprayed to is heavy by the sprayed wind power and falls in front of the partition panel 232 and is transported by the conveyor 400 prepared at the bottom of the discharge port 213 , The light weight flies away and falls to the rear of the partition panel 232 and is transported by the conveyor 400 prepared at the lower end of the discharge port 213.

At this time, the wind introduced into the wind selector 200 is discharged through the air outlet 214 formed at the rear top of the wind selector 200, so that the vortex phenomenon can be prevented from occurring in the inner space 212 of the wind selector 200 it was made to

In addition, a conveyor 400 is installed in the lower discharge port 115 of the screen sorter 100 and the lower discharge port 212 of the wind power separator to transport the sorted shredded waste 300.

The conveyor 400 for transporting the shredded waste 300 uses a conventional transport conveyor.

In this way, the present invention crushes waste such as end-of-life vehicles, metal and plastic parts collected from industrial sites, rubber and plastic or metal-attached parts, and then sorts flammable waste and non-combustible waste, and converts the flammable waste into fuel. and non-combustible waste can be recycled as a raw material for products, making the sorting process simple and easy.

In addition, the present invention sorts the shredded waste with a screen sorter before sorting it with a wind sorter, and then sorts it again according to its specific gravity with a wind sorter, so that the sorting is subdivided and dust and dust are not circulated, and at the same time, the environment It is to provide a friendly waste sorting device.

100: screen sorter 110: input hopper
111: cover 112: vibration motor
113: dustproof member 114: sorting screen
115: discharge port 200: wind separator
210: entrance 211: seat cover
212: space part 213: discharge port
214: air outlet 215: perforation
220: blower 221: branch pipe
222: air conveying pipe 223: blowing pipe
224: Nozzle
230: roller 231: partition shaft
232: partition panel 233: see-through window
240: Gap adjustment unit 241: Support panel
242: vertical adjustment member 243: horizontal adjustment member
244: fixed bracket 245: L-type bracket
246: fixing screw member 247: support spring
248: shaft fixing bracket 249: roller shaft fixing member
300: shredding waste

Claims (6)

a screen sorter that is formed to be inclined to one side and sorts shredded waste while being slid by the vibration of the sorting screen by a vibration motor;
a wind-powered separator, one end of which is connected to an inlet of the screen separator and capable of sorting shredded waste by wind from a blower;
a blower tube installed at the lower part of the inlet of the wind power separator and blowing the air supplied from the air transfer tubes on both sides connected to the blower to scatter the incoming shredded waste;
a clearance adjusting unit configured to adjust the distance between the outlets according to the weight of the shredded waste scattered by the wind power sprayed from the blast pipe;
an air discharge port capable of discharging vortex air formed in the inner space of the wind turbine separator to the outside;
A wind separator having a screen separator for recycling waste, characterized in that it is installed in the inner space of the wind separator and includes a roller and a partition panel installed so that the left and right spaces can be adjusted by the gap adjusting unit. According to claim 1,
The gap control unit,
a support panel for supporting both end portions of the roller and the partition shaft, and a horizontal adjustment member and a vertical adjustment member for adjusting the distance between scattered spaces by moving the support panel vertically and horizontally;
a fixing bracket installed on both outer surfaces of the wind turbine separator and fixed to support the horizontal adjustment member and the vertical adjustment member;
An L-shaped bracket installed at the center of the upper surface of the fixing bracket to support one end of the horizontal adjustment member and an upper end of the vertical adjustment member;
A wind separator having a waste recycling screen sorter, characterized in that it includes a fixed screw member installed on one side of the upper surface of the fixed bracket so that the horizontal bracket supported at one end is inserted into the L-shaped bracket and moves horizontally to and from the left and right. According to claim 2,
A waste recycling screen sorter comprising a support spring connected to the partition shaft so that one end is connected to a shaft fixing bracket supporting both ends of the partition shaft and the other end is fixed to the support panel to have the bearing capacity of the partition panel. wind selector. According to claim 1,
The blower installed at the top of the wind separator is connected to the discharge port of the blower and has a wind separator having a screen separator for recycling waste, characterized in that a branch pipe is installed to branch the wind power to both air transfer pipes. According to claim 1,
The wind power separator having a waste recycling screen separator, characterized in that the seat cover is installed to block the peripheral space when connected to the end of the screen separator. According to claim 1,
The screen sorter 100 has a vibration motor installed on one side to apply vibration to the sorting screen so that the shredded waste flows down the inclined surface so that dust and fine shredded waste fall to the lower discharge port to sort and crush unsorted The waste is sliding along the inclined surface of the sorting screen to enter the wind power separator inlet and is separated into combustible waste and non-combustible waste by wind power sprayed from the blower pipe.

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