KR100950284B1 - Sorting equipment for recycling aggregate and sand by 3steps watercourse - Google Patents

Abstract

PURPOSE: A sorting apparatus for recycling aggregates and sand using three-stage waterway is provided to efficiently sort out a styrofoam and a foreign material included among recycling aggregates and sand by generating a vortex without a separate sorting machine. CONSTITUTION: A sorting apparatus for recycling aggregates and sand using three-stage waterway is formed with a selecting device dividing sediment flowed in through an inlet into recycling aggregates and foreign materials. The selecting device comprises the following: a cone shape screen unit(100) dividing recycling aggregates and foreign materials by a strong vortex along to the three-stage waterway; and a first cone shape screen, a second cone shape screen, and a third cone shape screen included in the cone shape screen unit. The cone shape screen is located in the inlet direction of sediment to form a protrusion in a cone shape and induces a first vortex by flowing sediment over the protrusion.

Description

Circulation aggregate and sand sorting device through 3-stage water channel {SORTING EQUIPMENT FOR RECYCLING AGGREGATE AND SAND BY 3STEPS WATERCOURSE}

The present invention relates to a circulating aggregate sorting device through a three-stage channel that separates and sorts circulating aggregates and foreign substances introduced along the sediment.

In order to construct a building, a large amount of sand is required, and these sands are collected from rivers, coastal areas, and stone mountains, but these natural resources are in a depleted state. If the sand is collected, it is expected to face serious environmental pollution. Therefore, it is urgently required to find ways to effectively solve this problem.

Therefore, looking at the sand production facilities developed to supply the insufficient sand, the Korean Utility Model Registration No. 399512 discloses a device for producing sand by vibrating separator in the production of artificial or recycled sand, which is suitable for sand quality regulation (KS F 2527). Vibration screening machine for producing 0.5 ~ 6mm sand is generally disclosed by installing the screen screen of the standard on the screen installed inside the screening device, Patent No. 393845, using a method of manufacturing sand and the device using waste concrete and recycled aggregate Means for producing sand used as construction materials by using waste concrete or recycled aggregates, the process of supplying waste concrete and recycled aggregates to the hopper by a conveyor; A primary metal separation process of separating the metal from the supplied raw material by a magnetic separator; Large particles are separated by the size of the particles to remove the foreign matter according to the specific gravity by the wind power foreign matter removal process; A crushing step of crushing the particles by a high-speed rotating cone crasher; A grain size improvement process in which medium-sized particles or grains of uneven shape are partially crushed and polished by a sand improvement sand crusher; Through this, a method for producing sand using waste concrete and recycled aggregate is disclosed.

In addition, Patent Publication No. 2005-51428 is a sand recycling method and a recycling device using waste concrete as construction waste, continuously supplying recycled aggregates of 40mm or less recycled waste concrete, washed with a vibratory washing separator, and then supplied to a load mill with water. And crushed and crushed, and then put into shake crushfire to separate and discharge the sludge such as sand and cement mortar and impurities such as wood chips, soil, and styrofoam pieces to recover sand by waste concrete. Is disclosed.

However, most of the existing sand production facilities do not achieve the separation effect as expected, even though they use expensive equipment such as shake crushers to separate drum type rotary separators and sludge. Due to the failure of properly treating sludge such as stone powder and fine powder generated by rotary sorting machine and shake crush fire), there was a problem of not providing aggregate or sand without foreign matter.

In order to solve the above problems, in the present invention, foreign matters such as styrofoam and wood chips remaining in circulating aggregates or sand among sediments can be efficiently selected, and the inclination angle of the inclined plate of the hatched screen part according to the type and size of the sediments is settled. The purpose of the present invention is to provide a circulating aggregate sorting device through a three-stage channel capable of selecting 1: 1 customized, circulating aggregates without foreign substances.

In order to achieve the above object, the circulation aggregate sorting device through the three-stage water channel according to the present invention,

It consists of a device for separating the sediment flowing through the sediment inlet to separate the aggregate and foreign matter,

The sorting device is achieved by being provided with a hat-shaped screen portion for separating and sorting the circulating aggregate and foreign matter by giving a strong vortex along the three-stage channel having a layered structure of the sediment falling from the sediment inlet.

As described above, in the present invention, it is possible to efficiently select foreign matters such as styrofoam and wood chips contained in circulating aggregate or sand among sediments by generating strong vortices in sediments falling naturally without installing a separate sorting device. According to the type and size of the sediment, the angle of inclination of the sloping plate of the hatshade screen part can be adjusted to 1: 1, so that there is a good effect of selecting the circulating aggregate without foreign matter.

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

1 is a perspective view showing a circulating aggregate sorting device through a three-stage water channel according to the present invention, which comprises a sorting device (1) for separating and sorting sediment flowing through the sediment inlet into circulating aggregate and foreign matter.

The sorting device (1) is formed in the shape of an inclined square frame, the hat-shaped screen portion 100 is configured therein.

The hatshade screen portion 100 according to the present invention serves to separate the circulating aggregate and foreign matter by giving a strong vortex along the three-stage channel of the layered structure sediment falling from the sediment inlet.

It is composed of a first hatch screen 110, a second hatch screen 120, a third hatch screen 130.

The first hatch screen 110, the second hatch screen 120, and the third hatch screen 130 according to the present invention are screen screens of 2 mm to 5 mm in size, or are formed in an integral plate shape.

In addition, the hatshade screen portion 100 according to the present invention comprises a discharge pipe 200 for dropping and discharge the circulating aggregate selected through the first discharge port and the second discharge port in the lower end.
Separation of the circulating aggregate and the foreign matter described in the present invention is a floating material such as styrofoam and wood chips remaining in the circulating aggregate or sand among the sediments, and as shown in FIG. Using the falling motion of the sediment falling to the screen 130 and the strong vortex phenomenon occurring along the three-stage channel of the layered structure, the first hatch screen 110, the second hatch screen 120, the third The hatshade screen 130 is formed of a screen net size of 2mm ~ 5mm, the first outlet 126 is formed between the first hatshade screen 110 and the second hatshade screen 120, the second hatshade As the second outlet 136 is formed between the screen 120 and the third hatch screen 130,
Circulating aggregate of 2mm ~ 5mm size is sorted and separated along the discharge pipe 200 through the screen net of 2mm ~ 5mm size, the first outlet 126, the second outlet 136,
Foreign substances (floating materials such as styrofoam, wood chips, etc.) of 5 mm or more are formed through the first movement screen 110 and the second emission screen (120) through the falling motion of the sediment and the strong vortex occurring along the three-stage water channel of the layered structure. ), And is discharged to the outside passing through the third hatshade screen 130.

First, the first hat-shaped screen 100 according to the present invention will be described.

The first hatshade screen 100 is located on the sediment inlet to form a first jaw-shaped jaw, and the sediment falling from the sediment inlet is carried over the first hatshape to induce a primary vortex to be generated. Play a role.

As shown in FIGS. 2 and 3, a first hinge portion 112 is installed at the center of the first hat-shaped screen main body 111, and the first regular tilt plate is formed around the first hinge portion 112. The first inclination plate 113 is located at one end of the first inclination plate 113, and the first inclination plate 113 is 10 ° to 60 ° inclination angle ( The first inclination angle adjusting rod 115 for vertically moving the first hinge portion 112 to adjust the inclination angle of the first inclined plate 113 to have θ) is installed by a screw tightening method.

The first hinge part 112 has a hinge blade bolted to be connected between the first forward tilt plate 113 and the first reverse slope plate 114, the hinge axis is formed through the center of the hinge blade.

Here, the hinge shaft is fixed to the both sides of the main body 10 of the sorting device in the shape of a rod.

The first reverse slope plate 114 is formed to have a reverse inclination angle of 10 ° ~ 60 ° from the horizontal reference line of the hem, both sides of the first history plate is welded to the both sides of the main body of the sorting device or fixed to be manufactured integrally .

The first regular inclined plate 113 is connected to both sides of the main hinge side of the sorting device at a distance of 1.5 to 3 cm and is supported by the first hinge portion, and a first inclination angle adjusting rod is installed at one side of the tip.

The first inclination angle adjusting rod 115 is positioned on one side of the tip of the first sloped plate and moved up and down about the first hinge portion such that the first sloped plate has a 10 ° to 60 ° slope angle from the horizontal reference line of the bottom. 1 It controls the angle of inclination of the inclined plate.

The first inclination angle adjusting rod according to the present invention is made of a rod-shaped rod formed with a thread, the upper end is bolted to the upper end of the sorting device body, the lower end is bolted to one side of the tip of the first sloped plate.

In addition, the first inclination angle adjusting rod 115 tightens the first hinge part by a screw tightening method through bolting to move the up and down centering around the first hinge part to adjust the inclination angle of the first inclined plate.

When the first regular inclination plate is formed at 10 ° or less from the horizontal reference line of the hem through the first inclination angle adjusting rod, a mild inclination is formed, so that no vortex occurs in the sediment falling from the sediment inlet, and thus the second hatch It is difficult to select the circulating aggregate and the foreign matter because it goes directly to the screen, and when the first slope is formed more than 60 ° from the horizontal reference line of the hem through the first tilt angle adjustment rod, a steep slope is formed. Because of the rapid fall, the circulating aggregate containing the sediment and the foreign matters are introduced into the primary outlet at the same time, so that it is difficult to select the foreign matters, so that the first hatshade screen body is formed by tilting 10 ° to 60 ° from the horizontal to the lower direction. Most preferred.

Next, a second hatch screen 120 according to the present invention will be described.

The second hatshade screen 120 is located on the top of the tip of the first hatshade screen to form a second hatched jaw (120a), the primary sorting through the primary vortex generated in the first hatshade screen It supports to discharge the recycled aggregate to the primary outlet 126, and at the same time serves to induce the secondary vortex is generated as the sediment falling from the first hatshade screen is passed over the second hatshade-shaped jaw. .

As shown in FIGS. 2 and 3, a second hinge portion 122 is installed at the center of the second hatshade screen main body 121, and a second regular inclined plate is formed around the second hinge portion 122. 123 and the second reverse inclined plate 124 are coupled to each other, the second reverse inclined plate 123 is spaced apart by a 2-15 cm height difference on the lower end of the first forward inclined plate is connected to the second hinge portion 122, the first 2 located on one side of the tip of the positive inclined plate 123 is moved up and down about the second hinge portion 122 so that the second positive inclined plate 123 has a 10 ° to 60 ° inclination angle (θ) from the horizontal reference line of the hem. The second inclination angle adjusting rod 124 for adjusting the inclination angle of the second regular inclined plate is screw-mounted.

The second hinge portion 122 has a hinge blade bolted to be connected between the second forward slope plate and the second reverse slope plate, the hinge axis is formed through the center of the hinge blade.

Here, the hinge shaft is fixed to both sides of the main body of the sorting device in the shape of a rod.

The second reverse slope plate 124 is spaced apart by a 2-15 cm height difference at the lower end of the first slope plate is connected to the second hinge portion, and is formed to have a reverse angle of 10 ° ~ 60 ° from the horizontal reference line of the hem.

Then, both side surfaces of the second reverse slope plate are welded or integrally manufactured and fixed to both sides of the main body of the sorting device.

Thus, both side surfaces of the second reverse slope plate are welded or integrally manufactured and fixed to both sides of the main body of the sorting device, and are connected to the second hinge part by being spaced apart by a height of 2 to 15 cm from the lower end of the first slope plate, thereby connecting the first positive slope plate. The first outlet 126 is formed between the second reverse slope plate and the second reverse slope plate.

Here, the first outlet 126 serves to discharge the foreign matter and the primary sorted circulating aggregate through the primary vortex generated in the first hatshade screen.
That is, as shown in Figure 4, when the sediment falling from the sediment inlet flows over the first jaw-shaped jaw while the primary vortex (A) is generated, the circulation aggregate of 2mm ~ 5mm size is 2mm ~ 5mm size The screen net and the first discharge port 126 through the discharge pipe 200 through the sorting and separation and separation, foreign matter (5mm or more foreign matter (floating material such as styrofoam, wood chips)) of the sediment falling motion and the first hatch screen Through the strong vortex generated as a result of passing through the first hatshade screen 110 to the second hatshade screen 120. Here, the first discharge discharged from the first discharge port is a floating material such as circulating aggregate or styrofoam and wood chips remaining in the sand from the sediment flowing directly from the sediment inlet through the first vortex generated in the first hatshade screen. Selected from the recycled aggregates, and means to discharge only the primary selected recycled aggregates.

In addition, the first outlet opening size according to the present invention may be adjusted through the first inclination angle adjusting rod 125 according to the type and size of the sediment.

The second regular inclined plate 123 is connected to both sides of the main body of the sorting device at a distance of 1.5 to 3 cm and is supported by the second hinge portion, and a second inclination angle adjusting rod is installed at one side of the tip.

The second inclination angle adjusting rod 125 is positioned on one side of the tip of the second inclined plate to move up and down about the second hinge portion so that the second inclined plate has an inclination angle of 10 ° to 60 ° from the horizontal reference line of the bottom. 2 It controls the inclination angle of the inclined plate.

The second inclination angle adjusting rod 125 according to the present invention is made of a rod-shaped rod shape, the upper end is bolted to the upper end of the sorting device body, the lower end is bolted to one side of the tip of the second regular inclined plate.

In addition, the second inclination angle adjusting rod 125 adjusts the inclination angle of the second inclined plate by tightening the second hinge part by screwing through bolting to move up and down about the second hinge part.

When the second regular inclined plate is formed below 10 ° from the horizontal reference line of the hem through the second inclination angle adjusting rod 125, a mild inclination is formed, so that no vortex is generated in the sediment falling from the sediment inlet. It is difficult to sort the circulation aggregate and foreign matters by going straight to the third hatch screen, and when the second regular slope plate is formed at 60 ° or more from the horizontal reference line of the hem through the second inclination angle adjusting rod, a steep slope is formed. As the sediment falls sharply, the circulating aggregate containing the sediment and the foreign matters flow into the secondary outlet at the same time, so it is difficult to select the foreign matter, so the second screen screen body is tilted 10 ° to 60 ° from the horizontal to the bottom. Most preferably.

Next, the third hatch screen 130 according to the present invention will be described.

The third hatshade screen 130 is located on the top of the tip of the second hatshade screen to form a third jaw-shaped jaw, the secondary aggregates through the secondary vortex generated in the second hatshade screen While supporting the discharge to the secondary outlet, while the sediment falling from the second hatch screen over the third hatch shaped jaw serves to induce the third vortex to be generated.

As shown in FIGS. 2 and 3, a third hinge portion 132 is installed at the center of the third hatshade screen main body, and the third regular tilt plate 133 is formed around the third hinge portion 132. It is divided into a third reverse inclined plate 134, and the third reverse inclined plate is spaced apart by a 2-15 cm height difference to the bottom of the second normal inclined plate is connected to the third hinge portion, and is located on one end of the third normal inclined plate The third inclination angle adjusting rod 135 which adjusts the inclination angle of the third inclination plate by screwing up and down about the third hinge portion so that the third inclination plate has a 10 ° to 60 ° inclination angle from the horizontal reference line of the bottom is screwed. Is installed in such a way.

The third hinge part 132 is bolted by a hinge blade is connected between the third forward slope plate and the third reverse slope plate, the hinge shaft is formed through the center of the hinge blade.

Here, the hinge shaft is fixed to both sides of the main body of the sorting device in the shape of a rod.

The third reverse slope plate 134 is spaced apart by a height of 2-15 cm from the lower end of the second positive slope plate is connected to the third hinge portion, and is formed to have a reverse angle of 10 ° to 60 ° from the horizontal reference line of the hem.

Then, both side surfaces of the third reverse slope plate are welded or integrally manufactured and fixed to both sides of the main body of the sorting device.

Thus, both side surfaces of the third reverse slope plate are welded or integrally manufactured and fixed to both sides of the main body of the sorting device, and are connected to the second hinge part by being spaced apart by a height of 2 to 15 cm from the bottom of the second slope plate, thereby connecting the second normal slope plate. And a second outlet 136 is formed between the third reverse slope plate.

Here, the second outlet 136 serves to discharge the foreign matter and the secondary sorted circulating aggregate through the secondary vortex generated in the second hatch screen.
That is, as shown in Figure 4, when the sediment falling from the first hatshade screen is passed over the second hatshade jaw secondary vortex (B) is generated, 2mm ~ 5mm circulating aggregate is 2mm ~ The screen screen of 5 mm size and the second discharge port 136 through the discharge pipe 200 is sorted and collected separately, foreign matter (floating material such as styrofoam, wood chips) of 5 mm or more falls from the first hat-shaped screen The falling motion of the sediment and the strong vortex occurring along the second hatch screen are passed through the second hatch screen 120 to the third hatch screen 130. Here, the second discharge discharged from the second discharge port is the second sediment generated from the second hatshade screen of suspended solids, such as styrofoam and wood chips remaining in the recycled aggregate or sand, from the sediment that has not been screened from the first hatshade screen. Sorting with circulating aggregate through the secondary vortex, and means to discharge only the second selected circulating aggregate.

And, the second outlet opening size according to the present invention can be adjusted through the second inclination angle adjusting rod 135 according to the type and size of the sediment.

The third regular inclined plate 133 is connected to both sides of the main body of the sorting device at a distance of 1.5 to 3 cm from each other while being supported by the third hinge portion, and a third inclination angle adjusting rod is installed at one side of the tip.

The third inclination angle adjusting rod 135 is positioned at one end of the third positive slope plate 133 so that the third positive slope plate 133 has a 10 ° to 60 ° inclination angle from the horizontal reference line at the bottom of the third hinge part. It moves up and down to adjust the angle of inclination of the third slope.

The third inclination angle adjusting rod 135 according to the present invention is made of a rod-shaped thread formed, the upper end is bolted to the upper end of the sorting device main body, the lower end is bolted to one end of the third regular inclined plate 133.

In addition, the third inclination angle adjusting rod 135 adjusts the inclination angle of the third positive inclined plate 133 by tightening the third hinge portion by screwing through bolting to move up and down about the third hinge portion.

When the third regular inclined plate 133 is formed at 10 degrees or less from the horizontal reference line of the hem through the third inclination angle adjusting rod 135, a mild inclination is formed, and the vortex flows down the sediment falling through the third hat-shaped jaw. Does not occur, the secondary screening and the remaining recycled aggregate and the foreign matter is not separated from each other immediately go to the equipment of the next process is difficult to select the recycled aggregate and foreign matter is generated, the third tilt slope plate through the third inclination angle adjustment rod If (133) is formed at 60 ° or more from the horizontal reference line of the hem, a steep slope is formed, and the sediment falls sharply, and the circulating aggregate and foreign matters containing the sediment are poured out all at once, and then the sediment is strongly impacted by the bottom surface. Since the problem is caused to bounce off the outside, the third hatch screen body is formed by tilting 10 ° to 60 ° in the lower direction from the horizontal line It is most preferred. Here, the apparatus of the next process refers to a general water treatment plant (sedimentation tank) commonly known in the art.
That is, when the sediment falling from the second hatshade screen passes over the jaw of the third hatshade and generates the third vortex (B), the circulation aggregate of 2 mm to 5 mm size is discharged through the screen network of 2 mm to 5 mm size. Sorting and separating along the (200), foreign matters (floating material such as styrofoam, wood chips, etc.) of 5mm or more are falling motion of the sediment falling from the second hatch screen, and strong vortex generated along the third hatch screen Through the development, it is discharged to the water treatment facility (sedimentation tank) which is a device of the next process.

Hereinafter, a detailed operation process of the circulation aggregate sorting device through the three-stage water channel according to the present invention will be described.

First, the sediment falling from the sediment inlet through the first hatshade screen is passed over the jaw of the first hatshade to induce a primary vortex to be generated.

Subsequently, the primary sorted circulating aggregate is discharged to the primary outlet through the primary vortex generated in the first hatch screen.

Subsequently, the sediment falling from the first hatshade screen through the second hatshade screen is passed over the jaw of the second hatshade to cause the secondary vortex to be generated.

Subsequently, the secondary sorted circulating aggregate is discharged to the secondary outlet through the secondary vortex generated in the second hatch screen.

Subsequently, the sediment falling from the second hatshade screen through the third hatshade screen is passed through the third hatshaft jaw and the second sorted through the third vortex generated and the remaining aggregate is separated from the recycled aggregates. Drain it.

1 is a perspective view showing a circulating aggregate sorting device through a three-stage water channel according to the present invention;

Figure 2 is an internal perspective view showing the components of the hatched screen portion 100 of the circulation aggregate sorting device through a three-stage waterway according to the present invention,

3 is an internal cross-sectional view showing a first hatch screen 110, a second hatch screen 120, and a third hatch screen 130, which are components of the shade screen portion 100 according to the present invention;

Figure 4 is an embodiment showing the operation of the circulation aggregate sorting device through a three-stage water channel according to the present invention.

※ Brief description of reference numerals ※

1: sorting device 10: main body

20: sediment inlet 100: hat shade screen portion

110: first hat-shaped screen 111: first hat-shaped screen body

112: first hinge portion 113: the first regular tilt plate

114: first reverse slope plate 115: first inclination angle adjusting rod

120: second hat-shaped screen 121: second hat-shaped screen body

122: second hinge portion 123: second normal tilt plate

124: second reverse slope plate 125: second inclination angle adjusting rod

130: 3rd hat type screen 131: 3rd hat type screen body

132: third hinge portion 133: the third normal tilt plate

134: third reverse slope plate 135: third inclination angle adjusting rod

Claims (5)

It consists of a device (1) to separate the sediment flowing through the sediment inlet to separate the circulating aggregate and foreign matter, In the sorting device 1 is configured to include a satin-type screen portion 100 for separating the sediment from the sediment inlet by giving a strong vortex along the three-stage channel of the layered structure separates the circulating aggregate and foreign matter, The hatshade screen portion 100 is located on the sediment inlet side to form a first hatched jaw (110a), so that the sediment falling from the sediment inlet is carried over the first hatshade to create a primary vortex A first hatched screen 110 to induce, Located at the front end of the first hatshade screen to form a second hatch-shaped jaw (120a), the primary discharge through the first sorted circulating aggregate through the primary vortex generated in the first hatshade screen And a second hatch screen 120 which induces secondary vortices as the sediment falling from the first hatch screen passes over the second hatch jaw while being supported to be discharged to the first hatch type screen. Located at the front end of the second hatshade screen to form a third hatshade-shaped jaw, and discharge the secondary sorted circulating aggregate through the secondary vortex generated in the second hatshade screen to the secondary outlet 136 At the same time, the sediment falling from the second hatshade screen is carried over the third hatshade jaw is formed by the third hatshade screen 130 to induce and discharge so that the third vortex is generated Circular aggregate sorting device through a three-stage waterway. delete According to claim 1, The first hatch screen 110 is provided with a first hinge portion 112 in the center of the first hatch screen body 111, the first hinge portion 112, the center 1 is divided into the forward slope plate 113 and the first reverse slope plate 114, is located on one side of the front end of the first slope plate 113, the inclination angle of 10 ° ~ 60 ° from the horizontal reference line of the foot Revolving aggregate sorting apparatus through a three-stage channel, characterized in that the first inclination angle adjusting rod 115 to move up and down about the first hinge portion to adjust the inclination angle of the first inclined plate so as to have a screw tightening. According to claim 1, wherein the second hatch screen 120 is provided with a second hinge portion in the center of the second hatch screen screen, divided into a second forward slope plate and a second reverse slope plate around the second hinge portion The second reverse slope plate is spaced apart by a height of 2-15 cm from the lower end of the first slope plate and connected to the second hinge portion, and the second reverse slope plate is positioned on one side of the tip of the second slope plate so that the second slope plate is 10 from the horizontal reference line of the hem. Circulating aggregate through a three-stage channel, characterized in that the second inclination angle adjusting rod for moving the second hinge up and down to adjust the inclination angle of the second inclined plate to have an inclination angle of ˜60 ° to be installed by a screw tightening method. Sorting device. The third hatched screen of claim 1, wherein a third hinge portion is installed at the center of the third hatshade screen body, divided into a third forward slope plate and a third reverse slope plate based on the third hinge portion, and 3 The inclined plate is spaced 2 to 15 cm apart from the lower end of the second inclined plate and connected to the third hinge, and is located at one end of the third inclined plate so that the third inclined plate is 10 ° to 60 from the horizontal reference line of the hem. And a third inclined angle adjusting rod which is moved up and down about the third hinge portion to adjust the inclined angle of the third inclined plate so as to have an inclined angle of °.

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