KR101962662B1 - Waste Aggregate Separator using High-pressure Water - Google Patents

Abstract

The present invention relates to a device for sorting foreign substances of waste aggregate using high-pressure water, capable of rapidly sorting foreign substances included in waste aggregate. To achieve the purpose of the present invention, according to the present invention, the device for sorting foreign substances in waste aggregate using high-pressure water includes: an input unit which the waste aggregate is put into as the input unit is installed to be inclined at a first inclination; a sorting unit installed on one side of the lower part of the input unit to be separated downward at a predetermined height and separating and discharging the foreign substances included in the waste aggregate freely falling down in a predetermined distance through the input unit in a different direction from that of the waste aggregate by using the high-pressure water; a belt conveyor installed on one side of the sorting unit and transferring the waste aggregate transferred by the sorting unit toward a crusher; a chain conveyor installed on the other side of the sorting unit and transferring the foreign substances discharged by being separated from the waste aggregate in the sorting unit; a foreign substance storing unit storing the foreign substances transferred by the chain conveyor and installed on one side of the chain conveyor; and a water storage unit installed on the bottom of the chain conveyor and resupplying the high-pressure water to the sorting unit by collecting the high-pressure water used in the sorting unit.

Description

{Waste Aggregate Separator using High-pressure Water}

The present invention relates to a particle separator for waste aggregate using high-pressure water, and more particularly to a particle separator for waste aggregate using high-pressure water separating suspended solids contained in the waste aggregate or foreign matter having a small specific gravity by using high- .

Generally, in the process of demolishing construction or civil works sites or existing structures and buildings, a large amount of construction waste is generated, which is composed of waste concrete, waste asphalt concrete, waste bricks, synthetic resins, wood, scrap iron.

Among these construction wastes, most of the concrete is recycled as buried material for improving construction site and civil engineering site, filling material for improvement of soft ground in the state where impurities are removed after crushing treatment, combustible materials such as synthetic resin or wood are recycled or incinerated .

In order to reuse the waste aggregate as described above, it is necessary to control foreign materials such as synthetic resin or wood, and a wet sorting method and a dry sorting method are widely used as sorting operations.

The wet screening method is a method of separating foreign matter suspended from a waste aggregate by impregnating a construction waste mixed with a waste aggregate and a foreign matter by filling water in a water reservoir of a predetermined size, The method of separating foreign matter and waste aggregate by using the weight difference is used to select the dry type. This dry sorting method has a problem of deteriorating the air quality. Recently, wet sorting method is mainly used compared to the dry sorting method.

On the other hand, as a conventional wet screening apparatus, a water treatment apparatus (hereinafter referred to as "patent document") for a construction waste disintegration apparatus disclosed in JP-A-2006-0089944 is disclosed.

The water treatment apparatus for a construction waste disposal apparatus disclosed in the above Patent Document includes a water tank provided with nozzles to form a flow of unidirectional water to be filled and having a width reduced gradually to collect sediments to be sedimented; An aggregate conveying conveyor formed on the belt so that one end thereof is immersed in the water tank and the other end is inclinedly exposed to the outside of the water tank; A differential discharge conveyor in which a plurality of buckets are provided at a predetermined inclination so that the other end of the water tank is exposed to the outside of the water tank; And a floating separation unit installed at the upper part of the water tank to continuously discharge the foreign matter floating on the water surface.

The conventional wet type separating apparatus as described above has a problem that a water tank having a predetermined size needs to be separately prepared so that the crushed waste aggregate can be received and settled. In addition, There is a problem that it takes a long time to perform the sorting operation.

In addition, there is a problem that a foreign matter collecting device for collecting foreign matters suspended in the water tank and a separate discharge conveyor for discharging foreign matter collected by the foreign matter collecting device to the outside of the water tank are required to be complicated and large in size as a whole .

Therefore, in order to remove the foreign materials contained in the waste aggregate, it is necessary to remove the foreign matter contained in the waste by using the construction waste It is necessary to develop a foreign matter sorting machine.

KR 10-2006-0089944 A (Aug. 10, 2006) KR 10-0959838 B1 (2010. 05. 18.) KR 10-0588836 B1 (2006. 05.) KR 10-0931471 B1 (Dec. 03, 2009)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a water tank for wet sorting, The present invention provides a foreign matter sorter separator using high-pressure water that can quickly separate foreign matter contained in the waste aggregate.

According to an aspect of the present invention, there is provided a foreign matter sorter separator using high-pressure water according to the present invention, the sorter having a first inclination, A separator for separating and discharging the foreign matter contained in the waste aggregate, which is located at a lower portion of the lower portion of the charging unit and is freely dropped by a predetermined distance through the charging unit, in a direction different from the waste aggregate using high pressure water; A belt conveyor positioned at one side of the sorting unit to convey the waste aggregate conveyed by the sorting unit to the crusher; A chain conveyor positioned at the other side of the sorting unit for conveying a foreign matter separated and discharged from the waste aggregate in the sorting unit; A foreign matter storage unit which is disposed at one side of the chain conveyor and stores a foreign matter transferred through the chain conveyor; And a water storage part which is located on the bottom surface of the chain conveyor and which recovers the high pressure water used in the sorting part and supplies the collected high pressure water to the sorting part so that the waste aggregate free falling at a predetermined speed by the first inclination of the charging part And discharging high-pressure water having a predetermined pressure in a direction opposite to the traveling direction, thereby separating the foreign matter mixed in the waste aggregate.

In addition, the present invention is characterized in that the sorting unit comprises a support frame of a predetermined size installed on the floor; A selection plate having a predetermined length installed to be elastically supported on the upper portion of the support frame by a plurality of elastic springs; And a high-pressure water discharger installed at the upper center of the sorting plate to discharge a high-pressure water into a space between a lower end of the charging unit and an upper surface of the separating plate.

Further, the present invention is characterized in that a guide pipe having a predetermined diameter is provided on the discriminating plate so as to be positioned between the charging unit and the high-pressure water discharger so that the falling direction of the waste aggregate falling freely through the charging unit is restricted, .

In addition, according to the present invention, the sorting plate is installed to have a second inclination at a predetermined angle, and one end where the belt conveyor is located is installed with a relatively low height as compared with the other end where the chain conveyor is positioned, And a vibration generating unit for generating vertical vibration by a rotation operation of the vibration generating unit.

The first slope of the present invention is in the range of 40 to 60 degrees and the second slope is in the range of 10 to 15 degrees so that the combination of the conveyance direction and the velocity and the second slope obtained when the waste aggregate is conveyed along the first slope The waste aggregate is prevented from being conveyed to the other end of the sorting plate on which the chain conveyor is installed.

According to the present invention, since it is not necessary to separately provide a settling tank for separating the waste aggregate and the foreign material while using the wet sorting method with little air pollution, space restriction for installing the foreign material separator is small, It is possible to quickly separate foreign matter from sedimentation and sorting, and as a result, a large amount of waste aggregate and foreign matter can be quickly and continuously selected.

In addition, the water used for the screening of foreign matters is advantageous in that water used for wet screening is saved since the foreign materials are removed by using the first and second filter filters and then reused.

1 is a perspective view showing an example of a foreign matter sorter for waste aggregate using high-pressure water according to the present invention.
2 is a plan view of Fig.
3 is a side view showing an example of a foreign matter sorter for waste aggregate using high-pressure water according to the present invention.
Fig. 4 is a view showing the direction of the waste aggregate free falling of the charging unit and the direction of the high pressure water discharged through the high-pressure water discharger according to the present invention. Fig.
FIG. 5 is a view showing an example of a direction in which a waste aggregate that is hit by a guide pipe according to the present invention falls. FIG.
6 is a view showing an example of a direction in which a waste aggregate collides with a plane portion of a guide pipe according to the present invention.
7 is a view showing an example in which foreign matters in the waste aggregate supplied through the charging unit according to the present invention are separated from the waste aggregate by high pressure water.
8 is a view showing an example of a vibration generating portion according to the present invention.
9 is a view showing an example in which high-pressure water according to the present invention is recovered to a water reservoir through a chain conveyor;
10 is a perspective view showing an example of a water reservoir according to the present invention.

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

An object of the present invention is to provide a foreign matter sorter for waste aggregate using high-pressure water which can quickly separate foreign matters contained in the waste aggregate in the process of transferring the waste aggregate without separately depositing the waste aggregate by setting a water tank separately for wet sorting 1 and 2, the foreign matter separator 2 of the present invention includes a charging unit 10, a sorting unit 20, a belt conveyor 30, a chain conveyor 40, a foreign matter storage unit 50 And a water storage portion 60. [

The charging unit 10 is a waste containing waste such as styrofoam, plastic, wire and waste aggregate removed from the waste through a primary screen (not shown) among the wastes containing foreign substances such as soil, styrofoam, To the sorting unit 20 to be described later.

As shown in FIGS. 1 and 3, the charging unit 10 includes a swash plate 11 installed at an upper portion of one side of the sorting unit 20 and spaced apart by a predetermined distance and having a first inclination A1 of a predetermined angle, And a support table 12 for supporting the swash plate 11 by a structure frame of a chain conveyor 40 described later.

At this time, the swash plate 11 is formed into a "C" shape having an opened top surface, and a mixture of styrofoam, plastic and wire (hereinafter referred to as "foreign matter" The direction is guided so as to be accurately inserted.

The swash plate 11 is made of a plate having a predetermined length A1 having a first inclination A1 of 40 to 60 degrees so that the swash plate 11 is supplied from the upper side of the swash plate 11 and is smoothly moved toward the lower side of the swash plate 11 The foreign matter falling down and the waste aggregate naturally fall at a speed of more than a predetermined speed so that the waste aggregate that has fallen to the sorting section 20 is forced to be conveyed in accordance with the conveying direction by the swash plate 11, The conveyance in the direction in which the belt conveyor 30 is installed is naturally induced and the conveyance in the opposite direction (the direction in which the chain conveyor 40 described later is installed) is naturally prevented.

Even if only a predetermined angle of inclination is formed without providing separate conveying means in the sorting section 20, the waste aggregate fed to the sorting section 20 is conveyed to the belt conveyor 30 It can be easily transported to the installed side.

The sorting unit 20 separates the foreign matter contained in the waste aggregate falling through the input unit 10 using high-pressure water and discharges them separately.

As shown in FIGS. 2 and 3, the sorting unit 20 includes a support frame 21 having a predetermined size fixed to the floor, and a plurality of elastic springs S disposed on the support frame 21 A plurality of sorting plates 22 are provided to be elastically supported and a plurality of sorting plates 22 are arranged in the upper central portion of the sorting plate 22 so as to discharge high pressure water into the space between the lower end of the introducing unit 10 and the upper surface of the sorting plate 22 And a high-pressure water discharger 23 in which a number of discharge pipes 23B are installed.

At this time, the screening plate 22 is formed of a plate having a "C" shaped cross section with an open top, and a belt conveyor 30 for conveying the waste aggregate to a subsequent process is provided at one end thereof, A chain conveyor 40 for conveying foreign matter is provided.

Guide pipes 22A and 22B are provided on both sides of the top plate 22 to keep the shape of the plate 22 so that the plate 22 is not easily deformed by an external force. 10, it is possible to prevent the waste aggregate and the foreign matter falling freely through the charging unit 10 from colliding directly with the discharge pipe 23B in addition to the reinforcing function of the discriminating plate 22 in the guide pipe 22A Function.

More specifically, as shown in FIG. 4, when the waste aggregate and the foreign matter fall down freely at a predetermined speed through the charging unit 10, the guide pipe 22A directly bumps against the discharge pipe 23B (Blocking) the fall path so that the waste aggregate and the foreign matter do not fall off at the angle of impact. Thus, it is structurally prevented that the discharge pipe 23B collides with the waste aggregate to be deformed or broken.

At this time, the waste aggregate and foreign matter hit against the guide pipe 22A to cancel the force acting to cause the waste aggregate to be discharged naturally to the belt conveyor 30 as shown in FIG. 5, and at the same time, And at the same time, due to the influence of the force of the high pressure water discharged from the high-pressure water discharger 23, the waste aggregate may fall off toward the chain conveyor 40, and the sorting function may not be accurately secured.

The guide pipe 22A is formed so as to have a predetermined distance L between the outer surface of the guide pipe 22A and the upper end of the inclined surface along the second inclination A2 of the discriminating plate 22, Is not easily detached toward the chain conveyor (40).

6, a guide groove 22A 'is formed at one side of the guide pipe 22A so that even if the waste aggregate or the like hits the guide groove 22A', the guide pipe 22A ' So that the waste aggregate is prevented from falling toward the chain conveyor 40. Further,

On the other hand, the high-pressure water discharger 23 is formed of a cylindrical tube having a predetermined diameter as shown in FIG. 2, and is provided at one side of the high-pressure water discharger 23 A water supply pipe 23A for allowing the water to be introduced into the inside is provided.

As shown in FIG. 7, the plurality of discharge pipes 23B are installed to discharge the high pressure water into the spaced spaces between the charging unit 10 and the sorting plate 22, whereby the waste aggregate and the foreign matter are introduced into the charging unit 10, the foreign matters relatively light in weight are moved toward the chain conveyor 40 along the high pressure water by the high pressure water.

The waste aggregate from which foreign matter has been removed is naturally moved to one end relatively lower in height by the sorting plate 22 having the second slope A2 of 10 to 15 degrees. At this time, A vibration generating portion 22C for generating vibration by the drive motor M may be provided on the bottom surface of the discriminating plate 22. [

The vibration generating portion 22C generates innumerable vibrations in the discriminating plate 22 provided to be elastically supported by the plurality of elastic springs S so that the second inclined portion A2 and the pulverized aggregate (Not shown) for detecting a weight change due to the waste aggregate is installed on the plate 22 at this time, and the control unit is configured to receive information sensed by the weight detection sensor If the weight of the discriminating plate 22 detected by the weight detecting sensor becomes larger than a predetermined reference value, the control unit controls the operation of the driving motor M to generate vibration in the discriminating plate 22, So that the degree of vibration is controlled by controlling the rotation speed of the rotary shaft (M).

The driving motor M generates vibrations in the discriminating plate 22 by the constitution of the weight detecting sensor, the control unit, the driving motor M and the vibration generating unit 22C as described above, Can be efficiently managed, and as a result, electric energy can be saved.

8, the vibration generating portion 22C is formed of a cylindrical tube so as to convert rotational motion generated in the driving motor M into upward and downward linear reciprocating motion, (Hereinafter, referred to as "cam (C)") which is in surface contact with the inner surface of the tube body and is rotationally operated. At this time, the center point CP of the tubular body and the center of the rotation axis of the driving motor M are installed to be spaced apart from each other by a predetermined height H downward.

When the cam C is rotated by the rotation axis by the vibration generating portion 22C as described above, the outer surface of the cam C and the inner surface of the tube are brought into contact with each other only in a specific section, So that the tube body is pressed downward to generate vertical and vertical vibration.

The belt conveyor 30 has a structure in which the waste aggregate conveyed by the second inclination A2 of the sorting plate 22 is conveyed to a subsequent stage such as a crusher or a secondary screen, Is conveyed by a flat belt of a predetermined width so that even a small size of waste aggregate can be smoothly conveyed.

The chain conveyor 40 is configured to transfer foreign matter, which is disposed at the other end with a relatively high height by the second inclination A2 of the sorting plate 22 together with the high pressure water, to the foreign matter storage unit 50, 9, the water falling together with the foreign matter naturally passes through the chain of the chain conveyor 40, and is separated from the foreign matter and recovered through the water storage part 60 located on the bottom side .

The foreign matter seated in the chain of the chain conveyor 40 is conveyed along the chain toward one end of the chain conveyor 40, and then accommodated in the foreign matter storing portion 50 described later.

The foreign substance storage unit 50 is configured to collect foreign substances to be transferred through the chain conveyor 40 and then to process them separately. The foreign substance storage unit 50 includes a plurality of wheels (not shown) And is configured to be movable as needed.

The water storage part 60 recovers the water discharged separately from the foreign matter through the chain conveyor 40 and supplies it to the high pressure water discharger 23 of the sorter 20.

10, the water storage unit 60 includes a water storage tank 61 having a predetermined size, a first filtration filter 62 for partitioning the space of the water storage tank 61 and removing foreign substances contained in the water, A second filtration filter 63 disposed at one side of the first filtration filter 62 to remove foreign matter of a smaller size contained in the water having passed through the first filtration filter 62, And a discharge pipe 64 through which water that has passed through the discharge pipe 63 is discharged.

As shown in FIG. 2, a circulation pipe (not shown) connected to the supply pipe 23A of the high-pressure water discharger 23 is installed in the discharge pipe 64, and a pump P is installed on the circulation pipe Water is removed from the water storage tank 61 through the first and second filtration filters 62 and 63 and is supplied to the high pressure water discharger 23 through the pump P so that the water is continuously circulated do.

Hereinafter, an example of using a foreign matter separator for waste aggregate using high-pressure water will be described.

When the waste aggregate from which soil particles have been removed by using the primary screen is supplied to the charging unit 10, a free fall is made toward the sorting unit 20 located at the lower end of the charging unit 10 by the first inclination A1 of the charging unit 10 At the same time, a predetermined amount of high-pressure water supplied through the pump P drops freely through the plurality of discharge pipes 23B and is discharged in a direction opposite to the falling direction of the fallen aggregate, The foreign matter, which is relatively light in weight compared to the waste aggregate, is transported along the high-pressure water in the opposite direction to the waste aggregate and separated from each other.

The waste aggregate from which foreign matter has been removed by the high pressure water is naturally conveyed to one end at a relatively low height by the configuration of the second inclination A2 of the discriminating plate 22, the drive motor M and the vibration generating portion 22C And then conveyed to the subsequent process through the belt conveyor 30. [

The foreign matter discharged to the side of the chain conveyor 40 along with the high-pressure water falls to the upper side of the chain conveyor 40 and is naturally separated from the water so that the foreign matter passes through the chain conveyor 40, To be collected separately.

The water falling down through the chain of the chain conveyor 40 is collected by the water storage tank 61 of the water storage part 60 and passes through the first and second filtration filters 62 and 63, The water having passed through the two filtration filters 62 and 63 is supplied to the high pressure water discharger 23 through the pump P and the high pressure water is discharged toward the continuously falling free aggregate so that the waste aggregate and the foreign matter are quickly separated .

As described above, according to the present invention, there is no need to separately set up a settling tank while using a wet sorting method in which air pollution is relatively less than that of the dry sorting method in order to remove foreign matter from the spent aggregate, Can be separated quickly by separating and sorting them in water. As a result, a large amount of waste aggregate and foreign matter can be quickly and continuously selected.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. It is to be understood that the scope of the present invention should not be construed as being limited only by the appended claims and should not be construed as limiting the scope of the present invention to those of ordinary skill in the art. It will be very self-evident.

1: Supply part 2: Foreign matter separator
10: input portion 11: swash plate
12: Support 20:
21: Support frame 22: Sorting plate
22A and 22B: guide tube 22A '
22C: vibration generating part 23: high pressure water discharger
23A: Supply pipe 23B: Discharge pipe
30: belt conveyor 40: chain conveyor
50: foreign matter storage part 60: water storage part
61: Water tank 62: First filtration filter
63: second filtration filter 64: discharge pipe
A1: first tilt A2: second tilt
C: Cam CP: Center point of the tube
H: Height L: Distance
M: drive motor P: pump
S: Elastic spring

Claims (5)

An input unit 10 sloped to have a first inclination A1 to input waste aggregate;
The foreign matter contained in the waste aggregate which is positioned on the lower side of the charging unit 10 and separated downward by a predetermined height and falls freely a predetermined distance through the charging unit 10 is separated in the direction different from the waste aggregate A sorting unit 20 for discharging the sample;
A belt conveyor 30 positioned at one side of the sorting unit 20 to convey the waste aggregate conveyed by the sorting unit 20 toward the crusher;
A chain conveyor 40 positioned at the other side of the sorting unit 20 for conveying a foreign matter separated and discharged from the waste aggregate in the sorting unit 20;
A foreign matter storage unit 50 disposed at one side of the chain conveyor 40 and storing a foreign matter transferred through the chain conveyor 40; And
A water storage unit 60 located on the bottom surface of the chain conveyor 40 to recover the high pressure water used in the sorting unit 20 and supply the collected high pressure water to the sorting unit 20;
Pressure water having a predetermined pressure is discharged in a direction opposite to the traveling direction of the waste aggregate falling freely at a predetermined speed by the first inclination A1 of the charging unit 10 to remove foreign matter mixed in the waste aggregate Separated,
The sorting unit (20)
A support frame 21 of a predetermined size installed on the floor;
A discriminating plate 22 of a predetermined length installed to be elastically supported on the upper part of the support frame 21 by a plurality of elastic springs S; And
A plurality of discharge tubes 23B are installed at the center of the upper portion of the sorting plate 22 so as to discharge the high pressure water into the spaced space between the lower end of the charging unit 10 and the upper surface of the sorting plate 22, A water discharger 23;
When the waste aggregate and the foreign matter are freely dropped from the loading unit 10 toward the sorting plate 22 by a predetermined height, the waste aggregate and the foreign matter are discharged to the spaced space between the loading unit 10 and the sorting plate 22 The foreign matter having relatively light weight is moved toward the chain conveyor 40 along the high pressure water,
The sorting plate (22)
And a second inclination A2 of a predetermined angle so that one end where the belt conveyor 30 is located is installed at a lower height relative to the other end where the chain conveyor 40 is located,
A vibration generating portion 22C for generating vertical vibration by the rotation operation of the drive motor M is provided on the bottom surface,
In the sorting plate 22,
A weight sensor for detecting weight change due to the waste aggregate; and a controller for receiving information sensed by the weight sensor and controlling the operation of the vibration generator 22C,
Wherein,
If the weight of the discrimination plate 22 sensed by the weight detection sensor is greater than a predetermined reference value, the operation of the driving motor M is controlled to generate vibration in the discrimination plate 22, M) to control the degree of vibration,
The first inclination A1 is 40 to 60 degrees and the second inclination A2 is 10 to 15 degrees so that the conveyance direction and velocity obtained when the waste aggregate is conveyed along the first slope A1, 2 slope A2, the waste aggregate is naturally prevented from being conveyed toward the chain conveyor 40. The waste sorbent separator according to claim 1,
delete The method according to claim 1,
In the sorting plate 22,
A guide pipe 22A having a predetermined diameter is disposed between the charging unit 10 and the high-pressure water discharger 23 so as to limit the falling direction of the waste aggregate falling freely through the charging unit 10 Wherein the high-pressure water is used for separating foreign matter in the waste aggregate. delete delete

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