KR100628212B1 - Separator for removing particle using bidirectional multiple conveyer - Google Patents

Abstract

The present invention relates to a foreign matter separation device using a bi-directional multi-conveyor, the purpose is to control the amount of air supplied while utilizing the function of the double vibration screen to separate the foreign matter by blowing uniformly and stably to the waste falling from the vibration screen of each stage To provide a foreign matter separation device.

According to an aspect of the present invention, there is provided a vibrating screen for sorting waste, comprising: a double vibrating screen for sorting the supplied waste; A bidirectional conveyor installed at the lower end of the outlet of the double vibrating screen and installed in lower direction than the height of the selection stage of the vibrating screen; Wind pressure control nozzles installed in the upper end of the two-way conveyor of each stage; A blowing passage connected to supply wind to the wind pressure control nozzle; A set of blowers for supplying air to the blower passage through an air distributor; The air flow regulator is installed in the air flow passage to control the air flow, and it separates the foreign matter from the falling waste sorted by size at the top and bottom of the vibrating screen by air blowing, collects it in one place, and drops it to the two-way conveyor without being separated by the air blowing. The aggregate of good quality is characterized in that it is configured to discharge in the desired direction.

Double vibrating screen, blower, air distributor, two-way conveyor, wind pressure control nozzle

Description

Separator for removing particle using bidirectional multiple conveyer}

1 is a schematic front view of the present invention,

2 is a schematic side view of the present invention;

3 is a schematic plan view of the present invention;

4 is a view illustrating a path and a flow rate regulator of a blow passage by the air distributor of the present invention;

Figure 5 is an exemplary cross-sectional view showing a front view of the nozzle of the present invention and the installation position of the wind pressure regulating plate installed in the nozzle,

Figure 6 is a front view of the wind pressure control plate installed in Figure 5,

Figure 7 is an embodiment showing the separation of foreign matter according to the present invention.

<Description of the symbols for the main parts of the drawings>

(1): Double vibration screen (2,2 '): Two-way Conveyor

(5): Blower (3,3 '): Wind pressure control nozzle

(4): Air passage (6): Air distributor

(7) air flow regulator (8) wind pressure control plate

The present invention relates to an apparatus for separating a substance using bidirectional multiple conveyors.

The conventional method of separating foreign matter (combustible waste) is to remove this material with wind power during the dropping from the conveyer conveying the waste. In this method, the width of the conveyor is small so that the curtain phenomenon occurs when the waste falls. In the process of separating by wind, heavy wastes resulted in the prevention of the discharge of foreign matters, which caused the problem that the separation of this material was not smooth.

Another conventional technique is to install a blower at the bottom of a two-stage vibrating screen or a three-stage vibrating screen to separate the material by wind, so that the material is separated by wind from waste falling to the bottom due to the wide width of the vibration screen. Separation efficiency is excellent, but due to the installation of a conveyor for transporting the waste sorted into three or four types in the two- and three-stage vibrating screen, there was a problem that it is impossible to install a blower for separating foreign matters at the bottom of the vibrating screen.

Therefore, the three or four types of vibrating screen can be installed in the lower part of the vibrating screen, the blower flow path for the separation of the material, so only two kinds of screening is possible, there is a problem that the function of the vibrating screen is limited.

In addition, two sets of blowers should be used because the length of the outlet of the blower is wide when separating the foreign matter with wind power. The method of using two sets of blowers is not good at separating efficiency when separating foreign matters because the wind or wind pressure discharged to the outlet is not constant. There is a problem that the consumption is severe and management is difficult.

In addition, the conveyor installed in the second and third stage vibrating screen is installed at the lower end of only one conveyor operated only in one direction, it is difficult to produce different sizes of circulating aggregates without replacement of the vibrating screen sorting network, and only in the prescribed position when separating foreign substances. There is a problem that the number of vibrating screens and foreign matter storage used in the intermediate treatment facility to process the construction waste to produce recycled aggregates can be collected.

An object of the present invention for solving the above problems is to control the amount of air supplied while utilizing the function of the double vibrating screen to separate the foreign matter by blowing uniformly and stably to the waste falling to the two-way conveyor from the vibration screen of each stage To provide a separation device.

It is another object of the present invention to utilize a variety of spaces to collect or return different high-quality aggregates in one place or in different locations without replacing the screen of the vibration screen using a conveyor capable of bidirectional operation when separating foreign matters. It is to provide a possible foreign matter separation device.

Another object of the present invention is to provide a foreign matter separation device for blowing the air of the appropriate size by means of controlling the amount of air flow or wind pressure is finally discharged air in one blowing system when blowing at the bottom of the double vibration screen It is.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional drawbacks in the vibration screen for sorting waste,

A double vibrating screen for sorting the supplied waste;

A bidirectional conveyor installed at the lower end of the outlet of the double vibrating screen and installed in lower direction than the height of the selection stage of the vibrating screen;

Wind pressure control nozzles installed in the upper end of the two-way conveyor of each stage;

A blowing passage connected to supply wind to the wind pressure control nozzle;

A set of blowers for supplying air to the blower passage through an air distributor;

The air flow regulator is installed in the air flow passage to control the air flow, and it separates the foreign matter from the falling waste sorted by size at the top and bottom of the vibrating screen by air blowing, collects it in one place, and drops it to the two-way conveyor without being separated by the air blowing. The aggregate of good quality is characterized in that it is configured to discharge in the desired direction.

The wind pressure control nozzle was formed to have a length of at least the width of the vibration screen so as to separate the material from the waste falling into a large area at the end of the vibration screen.

Connected to the blower so that the wind discharged from one set of blowers installed on either side of the vibrating screen is uniformly supplied to both sides of the wind pressure control nozzle to separate the foreign matter from the waste falling into the large area at the end of the blower passage vibrating screen. The air flow regulators were installed on both sides of the air divider for dividing the air flow passage in two directions to supply different air flows to the air flow passages having different lengths so as to supply uniform air flow to each of the end pressure control nozzles.

The airflow regulator of each stage It is installed in each side of the air passages supplied to the air pressure control nozzle, but the lower air volume controller that blows the small sized waste dropped from the upper vibrating screen of the double vibrating screen to the lower vibrating screen is controlled to supply less air volume than the upper air volume regulator. The aggregate is blown from the upper and lower ends are configured to receive different blowing.

The wind pressure regulating nozzle was formed with a wind pressure regulating plate installed in a lengthwise direction perpendicular to the discharge direction to adjust the wind pressure of the blower to a plurality of hole sizes formed in the wind pressure regulating plate.

That is, when the wind pressure discharged from the wind pressure control nozzle is set high, a small perforated hole is provided in the wind pressure control plate. When the wind pressure is set small, a large hole perforated in the wind pressure control plate is installed and passed through the nozzle. It was configured to.

The blower passage is separated in two directions from the air distributor connected to the blower and is connected to one side of the wind pressure regulating nozzles formed in multiple stages in each direction, and is configured to be connected to the blow passage connected to the other side of the wind pressure adjusting nozzle.

The two-way conveyor horizontally installs a two-way conveyor that is driven in both directions at a lower level than the height of the selection stage at the bottom of each of the vibrating screen outlet, a long length of the conveyor at the top horizontally installed a conveyor of a shorter length than the top Configured.

According to the installation of the two-way conveyor, the material separated by the different wind strengths can be collected in one place. Without changing the sorting network, it is discharged to the desired size or returned to the shredding device and re-inserted to continuously produce the recycled aggregate of the desired size.
The airflow control principle of the airflow regulator used in the present invention is a principle of controlling the amount of air supplied through the airflow passage by installing a load means that obstructs the flow of air formed in the airflow passage. That is, the air volume is controlled by controlling the opening area and the closed area with respect to the cross-sectional area of the air passage, and this air flow control principle itself is a known principle.
Specific examples to which the air flow control principle is applied may include opening and closing means for controlling fire power by controlling air supply by installing firewood, which is used as a heating and cooking means in a home, for example, briquette ducts and stoves. To explain the structure in more detail, the arch is made of a configuration for controlling the air volume by blocking the air hole formed in the briquette, stove, etc. by the opening and closing means, and opening and closing the opening formed in the opening and closing means. The air supply amount control of the opening and closing means is configured to open and close the portion blocking the opening by the shaft rotation means, when the opening and closing means is installed to block the front part of the air hole, it is configured to open and close the opening by the central axis rotation method, In the case of being installed in the air hole passage, the opening groove is machined in the circumferential direction of the air passage, and the means is inserted into the opening groove and provided with a rotating shaft to open and close the opening.
To describe another opening and closing means, a disc or semi-circle is installed inside the air passage to act as a load on the air supply flow, and is installed on an axis installed across the cross-sectional direction of the air passage, and a lever for rotating the shaft is provided outside the air passage. It is also possible to use the means installed in. 2, 3, and 5 of the present invention are similar to these means, but the present invention may use any one of these various means and only means to control the amount of air supplied through the air passage. It is enough.

Hereinafter, the configuration and the operation of the embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic front view of the present invention, FIG. 2 is a schematic side view of the present invention, and FIG. 3 is a schematic plan view of the present invention. One set of blowers 5 is installed, and an air distributor 6 connected thereto is installed to supply air of a predetermined capacity supplied from the blowers to the two-way blow passage 4.

The one side blow passage 4 distributed from the air distributor 6 is installed to be connected to one side of the vibrating screen near the blower, and the other side blow passage is the width direction of the vibrating screen so as to be connected to the other side of the vibrating screen far from the blower. After rising across and installed.

Each of the raised blow passages are branched blow passages horizontally connected to both sides of the wind pressure control nozzles 3 and 3 'installed at the end of each end of the double vibration screen.

In addition, the air flow passage configured to control the air flow from the blower by configuring a total of six air flow regulators (7) when configured as a double vibration screen.

The double vibrating screen is composed of an upper and a lower end, and a two-way conveyor (2, 2 ') is installed horizontally at the dropping point, and a wind pressure adjusting nozzle is installed at the upper end of the two-way conveyor. The double vibrating screen is disposed at the top of the upper two-way conveyor installed on the end after the large waste is vibrated at the top, and at the bottom of the bottom two-sided vibrating waste having a size smaller than the waste of the top separated from the top It falls on the conveyor. Therefore, the size of the waste discharged through the upper and lower vibrating screen is different, the scattering distance is changed according to the same blowing power is required to control the blowing power.

In order to control the airflow, the airflow regulator installed at each stage of the airflow passage controls the airflow.

Figure 4 is a position of the air flow passage and the air flow regulator position of the air distributor according to the present invention, the air blow passage of the present invention so that the branch blow passage is horizontally connected to both sides of the wind pressure control nozzle installed at the end of each end of the double vibration screen It is installed, the airflow regulator is composed of a total of six, two in the branch and two horizontal ventilation passages in the upper and lower branches from the air distributor. Therefore, the airflow regulators installed on both sides of the lowest air distributor adjust different airflows to balance the supply of different airflows at different lengths, and the airflow regulators at the top and bottom of the airflow supplying a balanced airflow operate the double vibration screen. Depending on the scattering according to the weight of the waste having different sizes and weights to adjust the air flow between the upper and lower ends to facilitate the transfer of the two-way conveyor. That is, the amount of air blowing at the bottom is adjusted to be smaller than the amount of blowing at the top.

5 is a side cross-sectional view showing a front view of the nozzle of the present invention and an installation position of the wind pressure regulating plate installed in the nozzle, and FIG. 6 shows a front exemplary view of the wind pressure regulating plate installed in FIG. 8) is formed by blocking the nozzle hole in the longitudinal direction, it is configured to control the wind pressure by drilling a plurality of holes in the plate. Therefore, if you want a different wind pressure, the nozzle hole is replaced by another wind pressure control plate.

Figure 7 is an embodiment showing the separation of foreign substances according to the present invention, the height of the vibration screen sorting end less than the height of the vibration screen sorting end on the outlet side of the two or three-stage vibration screen that can sort the waste into 3,4 types It can be seen that the two-way conveyor that can be driven is installed in multiple stages, and the wind pressure adjustment nozzle is installed between the installed two-way conveyors to separate foreign substances from the falling waste sorted by size on the vibration screen with wind and discharge them in the desired direction. .

In addition, as shown, a blocking film is installed to prevent the air from scattering in the upper direction to prevent air pollution.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention has a height lower than the height of the vibration screen sorting stage, and a bidirectional conveyor capable of driving in both directions is installed on the outlet side of the two or three stage vibration screens capable of sorting waste into three or four kinds. A wind pressure control nozzle is installed between the installed two-way conveyors to separate the foreign matter from the falling waste sorted by size from the vibrating screen by the wind and discharge the high-quality recycled aggregate of the desired size in the desired direction or return it to the shredding device for shredding. You can do that,

The air flow regulator is installed on both sides of the air distributor that can separate and discharge air in two directions while using one set of blower, and the amount of air sent to both sides of the wind pressure control nozzle is controlled. When the air is sent to each wind pressure control nozzle while adjusting the amount of air sent to the nozzle by installing the air volume regulator in each direction up and down, the air discharged from the air volume control nozzle is selected by the selected wind pressure control plate installed inside the nozzle. While maintaining the pressure constant, it is possible to separate foreign matters (combustible wastes) into air having air volume and wind pressure that are most suitable for the wastes that are sorted by size on the vibrating screen while maintaining the pressure.

By installing two-way conveyors of different lengths up and down and driving them in both directions, it is possible to produce high-quality recycled aggregates of the desired size without replacing the vibrating screen sorting network. This material can be collected in one place, and it is a useful invention with the advantage that it can reduce the number of the material storage and the vibration screen used in the intermediate treatment facility that produces the construction aggregate by treating the construction waste. It is an invention.

Claims (7)

In the foreign matter separation device comprising a vibration screen for sorting the supplied waste and a blowing means for separating the foreign matter contained in the waste by blowing the waste falling from the vibrating screen and a conveyor for transporting the dropped waste after separating the foreign matter blowing , A double vibrating screen composed of upper and lower ends for sorting the supplied waste; The upper and lower end of the double vibrating screen is installed lower than the height of the screening end of the vibrating screen is installed so as to drive in both directions, the long length of the conveyor at the top, the lower length of the conveyor is installed horizontally Two-way conveyor; A wind pressure control nozzle installed at an upper end of a two-way conveyor at each of the upper and lower ends of the double vibrating screen; A blowing passage connected to upper and lower ends of the double vibrating screen to supply wind to the wind pressure control nozzle; A set of blowers for supplying air to the blower passage through an air distributor; Is installed in the ventilation passage to adjust the air flow rate; Consists of, The blower passages are arranged so that the wind discharged from a set of blowers installed on either side of the vibrating screen is uniformly supplied to both sides of the wind pressure control nozzle to separate the foreign matter from the waste falling into the large area at the end of the vibrating screen. Air flow regulators are installed on both sides of the air distributor that divides the air flow passage in two directions to supply different air flows to the air flow passages having different lengths so as to provide a uniform air flow to each end of the air pressure control nozzle. , Characterized by separating the upper and lower ends of the vibrating screen by blowing air to separate the foreign matter from the falling waste collected in one place, the high-quality aggregate dropped into the two-way conveyor without being separated by the blower is characterized in that configured to discharge in the desired direction Foreign material separation device using two-way multi-conveyor. The method of claim 1, The wind pressure control nozzle is a foreign matter separation device using a two-way multi-conveyor, characterized in that formed to have a length of at least the width of the vibration screen to separate the material from the waste falling into a large area at the end of the vibration screen. delete The method of claim 1, The airflow regulator of each stage It is installed in each side of the air passages supplied to the air pressure control nozzle, but the lower air volume controller that blows the small sized waste dropped from the upper vibrating screen of the double vibrating screen to the lower vibrating screen is controlled to supply less air volume than the upper air volume regulator. The foreign matter separation device using a two-way multi-conveyor, characterized in that the aggregate is blown from the upper and lower ends to receive different blowing. The method of claim 1, The wind pressure regulating nozzle is formed with a wind pressure control plate installed in a longitudinal direction perpendicular to the discharge direction, so that a predetermined capacity is adjusted to blow air by adjusting the wind pressure of the blower to a plurality of hole sizes formed in the wind pressure control plate. Foreign material separation device. The method of claim 1, The blow passage is separated in two directions from the air distributor connected to the blower and then connected to each side of the wind pressure control nozzle formed in multiple stages in each direction, and is configured to be connected to the blow passage connected to the other side of the wind pressure control nozzle Foreign material separation device using a bidirectional multi-conveyor. delete

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