KR100821944B1 - Sieve barrel device having multi-section structure of the aggregation sorting system using the construction waste and assembling method for the same - Google Patents

Abstract

A sieve barrel device having a multi-section structure of an aggregate sorting system by using the construction waste and an assembling method thereof are provided to separate only a sieve barrel where a defect is generated, and then connect the sieve barrel again by splitting the inside of each sieve barrel into plural sections and connecting and combining the split sections. In a sieve barrel device having a multi-section structure of an aggregate sorting system by using the construction waste, a first separable sieve barrel(4) has a body split into plural sections(S1-SN) and the ends of the sections are engaged with each other. Each split section comprises plural sorting holes(1A-1N) having a predetermined diameter and support members(2A,2B) supporting the sorting holes. The first separable sieve barrel contains the construction waste and sorts out the construction waste and the recyclable soil by turning the construction waste forward. A second separable sieve barrel(7) interlocks with the first separable sieve barrel and has a body split into plural sections and the ends of the sections are engaged with each other. Each split section has plural sorting holes(5A-5N) having a predetermined diameter and support members(6A,6B) supporting the sorting holes. The second separable sieve barrel contains the construction waste and discharges the construction waste by rotating the construction waste oppositely to the rotational direction of the first separable sieve barrel.

Description

Sieve barrel device having multi-section structure of the aggregation sorting system using the construction waste and assembling method for the same}

1 is an explanatory diagram for explaining a system of the conventional lung bone sorting system.

Figure 2 is an explanatory view illustrating a barrel system having a multi-section structure of the waste aggregate aggregate system of the present invention.

3 is an explanatory view for explaining a schematic cross-sectional view of a part of the body through the multi-section structure of the present invention.

4 is a flowchart illustrating a method of assembling the apparatus of the present invention.

*** Explanation of symbols for important parts of drawing ***

1A-N: Selector member 2A-N: Support member

3: building waste 4: first separation cylinder

5A-N: Selector member 6A-N: Support member

7: second separation cylinder 8: duct device

9: blower unit 10: first conveyor

11: second conveyor S1-SN: sectioned

The present invention relates to a barrel device having a multi-section structure of an aggregate screening system using construction waste, and a method for assembling the same. The present invention relates to a tubular device having a multi-section structure of an aggregate selection system using building wastes formed by the same, and an assembly method thereof.

In general, a large number of construction wastes are generated in accordance with mass production due to industrialization and industrialization. Among them, in the case of landfilling of construction waste, not only resources are wasted but also various environmental pollution problems have been recently developed and utilized to recycle and recycle construction waste.

In particular, among such construction waste sorting and treatment systems, various kinds of construction wastes are shredded, washed and sorted and recycled, or a system for selectively producing recycled aggregates using water is widely used.

Then, referring to FIG. 1 of the waste sorting system of the waste sorting system as described above, it is provided with a sorting hole 70 composed of a plurality of drilling holes inside the body and accommodates construction waste 72 to perform a forward rotation. According to the first body (73) integrally formed to separate and discharge the building waste 72 according to the particle size through the sorting hole (70);

According to the particle size through the sorting hole 71 composed of a plurality of drilling holes in the interior of the building waste 72, which has passed to the first cylinder 73 while reversely interlocking with the first cylinder 73 in the opposite direction. A second barrel 74 separated and discharged;

Heat is installed near the outer periphery of the first and second cylinders (73, 74) to heat the sorting holes (70, 71) so that the sorting holes (70, 71) are not blocked by wet soil or garbage Burner 75;

A first conveyor installed at the lower portions of the first and second cylinders 73 and 74 to transfer the soil or wastes 72 having a predetermined granularity dropped through the selection holes 70 and 71 to a predetermined next process ( 76);

 A second is installed at the outlet side of the first and second cylinders (73, 74) for transferring the soil or wastes (72) having a predetermined granularity that can not fall through the sorting holes (70, 74) to a predetermined next process It is configured to include a conveyor (77).

Then, referring to the operation of the body of the body is integrated body as described above, first, to put the building waste 72 in the first barrel 73 in order to sort the building waste 72, the first barrel 73 is Will turn forward. At this time, when the first barrel 73 is rotated through the sorting hole 70 provided in the interior of the first barrel 73, the construction waste 72 of a predetermined size or less, for example, earth and sand waste It falls to the upper surface of the first conveyor 76 located below the 73. Then, the first conveyor 76 transfers the soil or wastes 72 having a predetermined granularity dropped through the sorting hole 70 to a predetermined next process.

On the other hand, the relatively large soil or waste 72 that does not pass through the sorting hole 70 of the first barrel 73 is transferred to the next second barrel 74, wherein the second barrel 74 Is reverse to the reverse to the first barrel (73). Therefore, when the second barrel 74 is rotated as described above, the construction waste 72 having a predetermined size or less, for example, soil or garbage, is disposed through the sorting hole 71 provided in the interior of the second barrel 74. It falls to the upper surface of the 1st conveyor 76 located under the 2nd cylinder 74.

Then, the first conveyor 76 transfers the soil or wastes 72 having a predetermined particle size dropped through the sorting hole 71 to a predetermined next process, while the sorting hole of the second barrel 74 Relatively large soil or wastes that do not pass through 71 are discharged to the second conveyor 77. Then, since the second conveyor 77 is installed at the outlet side of the second cylinder 74, the soil or wastes 72 having a predetermined granularity that cannot fall through the sorting holes 70 and 74 are defined. Transfer to the next process.

Here, the heating burner 75 installed near the outer periphery of the cylinders 73 and 74 during the sorting process heats the sorting holes 70 and 71 of the first and second cylinders 73 and 74. Add and dry the sorting holes (70, 71) so as not to be blocked by wet soil or garbage.

However, in the conventional trunking apparatus as described above, since the bodies of the first barrel and the second barrel are integrally formed, the entire trunk is removed from the system in the event of failure or repair of a part of the trunk. Because of the need to repair and then refit, the maintainability of the body has been greatly reduced, as well as other parts of the body that do not need to be replaced because the body is integral when a part of the body is damaged and needs to be replaced. Since all parts must be replaced together, there was a problem in that it significantly increased the replacement cost of the body.

Therefore, the present invention has been invented to solve the above problems, and when a failure occurs inside the body, only the body of the region where the failure occurred is repaired and then quickly reconnected, thereby maximizing the maintainability of the body. It is an object of the present invention to provide a barrel and a method of assembling a multi-section structure of an aggregate selection system using building waste.

Another object of the present invention is to replace the body according to the problem can be replaced only when the problem occurs without the need to replace all the body when the need arises to replace the body, and then reassemble the remaining body parts The present invention provides a system having a multi-section structure and an assembly method thereof for an aggregate selection system using construction waste, which significantly reduces the cost.

In the present invention for achieving the above object, in the barrel device of the waste building aggregate selection system for sorting waste by a rotation method,

The barrel device is divided into a plurality of sections (S1-N) of the body consisting of a selection hole member formed of a plurality of drilling holes having a predetermined diameter and the support members for supporting the selection hole member, and then reset them by a connection coupling method. A first separation passage configured to combine the first wastewater, and to receive the construction wastes to rotate forward to select the construction wastes;

The inner part of the body consisting of a selection hole member interlocked with the first separator and formed of a plurality of drill holes having a predetermined diameter and supporting members for supporting the selection hole member is divided into a plurality of sections (S1-N), and then again. A barrel having a multi-section structure of a waste aggregate aggregate selection system, comprising a second separation cylinder which is coupled by a set connection coupling method and accommodates construction wastes and rotates in a direction opposite to the rotational direction of the first separation cylinder and discharged. Provide the device.

Another feature of the present invention is to weld the selection hole members 1A, 5A to the respective supporting members 2A, 6A of the sections S1-N of the first and second separator cylinders of the waste aggregate aggregate system. Or screwing the first step;

A second step of joining another selection hole member (1B, 5B) by welding or screwing to the rear end of the selection hole member (1A, 5A) joined by the first step;

In the case of the selection hole member coupled before the end of the selection hole member to be joined by the second step, the last selection hole member sectioned to the rear end of the selection hole member 1B and 5B ( 1N, 5N) the third step of joining by welding or screwing;

Joining the support members 2N and 6N to be connected next to the rear end of the last sorting hole member 1N joined by the third step by welding or screwing to complete the assembly of the first or second separator cylinder. Provided is a method for assembling a barrel device having a multi-section structure of an aggregate selection system using building waste including a fourth step.

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

As shown in FIGS. 2 and 3, the body is divided into a plurality of sections S1 to N, respectively, and ends thereof are joined to each other, and the divided angular sections S1 to N have a predetermined diameter. Consists of a plurality of sorting holes (1A-N) having and a support member (2A, 2B) for supporting the sorting holes (1A-N), to accommodate the construction waste (3) to rotate forward and recycle with the construction waste (4) A first separation cylinder 4 for sorting soil;

It is interlocked with the first separating cylinder 4 and the body is divided into a plurality of sections (S1-N), respectively, the ends are joined to each other, the divided angular section (S1-N) has a certain diameter It consists of a plurality of sorting holes (5A-N) and supporting members (6A, 6B) for supporting the sorting holes (5A-N), the building wastes (3) to accommodate the direction of rotation of the first separation cylinder (4) A second separation cylinder 7 which rotates in a direction opposite to the discharge direction;
A plurality of rectangular inner passages which are in contact with each other at a predetermined distance on one side of the sorting holes 1A-N of the first separating cylinder 4 and the sorting holes 5A-N of the second separating cylinder 7 ( 12A-12B), and the inner passage 12A-12B is installed to be integrated into one passage at the rear end side, and the entire selection holes of the first barrel 4 and the second barrel 7 ( 1A-N, 5A-N) and the duct apparatus 8 for uniformly applying wind to each;

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A blower unit 9 installed at one side of the duct apparatus 8 to apply wind to the inner passage of the duct apparatus 8;

Soil or wastes (3) having a predetermined granularity that is installed in the lower portion of the first separator cylinder (4) and the second separator cylinder (7) and dropped through the respective sorting hole members (1A-N, 5A-N) And the first conveyor 10 for transferring the predetermined next process;

 It is installed on the outlet side of the second separation cylinder (7) to transfer the soil or wastes (3) having a predetermined granularity that can not fall through the selection hole member (1A-N, 5A-N) to a predetermined next process It is configured to include two conveyors (11).

Here, the coupling method of the first separator cylinder 4 and the second separator cylinder 7 may be a screw coupling method. Alternatively, the coupling method of the first separator cylinder 4 and the second separator cylinder 7 may use a welding method.

On the other hand, when explaining the assembly state of the first separator cylinder of the present invention as described above, first, the sections (S1-N) of the first separator cylinder 4 are combined in accordance with the coupling order, for example 1A of sorting hole members to the support member 2A, for example, are welded or screwed together, and another sorting hole member 1B is provided at the rear end of the combined sorting hole member 1A. Is joined by welding or screwing, and the last sorting member 1N sectioned in this manner is joined by welding or screwing, and then the next supporting member 2N is welded to the rear end of the last sorting member 1N. Or screwed together to complete the assembly of the first separating cylinder (4).

In addition, when the assembly state of the second separator cylinder is described, first, the sections S1-N of the second separator cylinder 7 are coupled in the coupling order, for example, the supporting member 6A. ), The selection hole member 5A is joined by a set coupling method, for example, welding or screwing, and another selection hole member 5B is welded or screwed to the rear end of the combined selection hole member 5A. Joining the last sorting member 5N sectioned in this manner by welding or screwing, and then joining the next supporting member 6N to the rear end of the last sorting member 5N by welding or screwing. To complete the assembly of the second separator cylinder (7).

Then, when the assembly of the first separator cylinder 4 and the second separator cylinder 7 is completed as described above, these (4, 7) is again coupled to each other to complete the normal forward and reverse rotation cylinder device.

That is, the method of assembling the first separator and the second separator of the present invention as described above is the section (S1-N) of the first separator and the second separator of the waste aggregate aggregate system as shown in FIG. A first step (S10) of joining the selection hole members (1A, 5A) to each of the supporting members (2A, 6A) by welding or screwing;

A second step (S20) of joining another selection hole member (1B, 5B) by welding or screwing to the rear end of the selection hole member (1A, 5A) coupled by the first step (S10);

The last sorting section sectioned to the rear end of the sorting hole members 1B and 5B when the sorting hole member joined before the end of the sorting hole member to be joined by the second step S20 is combined. A third step S30 of joining the ball members 1N and 5N by welding or screwing;

Joining the support members 2N and 6N to be connected next to the rear end of the last sorting hole member 1N joined by the third step by welding or screwing to complete the assembly of the first or second separator cylinder. It comprises a fourth step (S40).

Next, the operation of the trunking apparatus of the present invention as described above will be described.

First, in order to sort the building waste 3, the building waste 3 is placed in the first separating cylinder 4 so that the first separating cylinder 4 rotates forward. At this time, when the first separator cylinder 4 is rotated forward through the section (S1 ~ N) coupled to the selection hole member (1A-N) provided in the interior of the first separator cylinder 4 of a certain size or less Building wastes 3, for example, soil or rubbish will fall to the upper surface of the first conveyor 10 located below the first separator cylinder (4).

Then, the first conveyor 10 transfers the soil or wastes 3 having a predetermined granularity dropped through the sorting hole members 1A-N coupled to the sections S1 to N to the next process. On the other hand, the relatively large soil or waste (3) that did not pass through the section (S1 ~ N) coupled selection member (1A-N) of the first separator (4) to the second separator (7) In this case, the second separator cylinder 7 is reversely rotated as opposed to the first separator cylinder 4.

Therefore, as described above, when the second separator cylinder 7 is rotated in reverse, the second separator cylinder 7 is fixed through the selection hole members 5A-N coupled to the sections S1 to N provided inside the second separator cylinder 7. Construction wastes 2 of size or less, for example, earth and sand, are dropped onto the upper surface of the first conveyor 10 located below the second cylinder 5A-N. Then, the first conveyor 10 transfers the soil or wastes 3 having a predetermined granularity dropped through the sorting hole members 5A-N coupled to the sections S1 to N to a predetermined next process. In addition, relatively large soil or wastes 3 which have not passed through the section S1 to N coupled to the sorting hole members 5A-N of the second separator cylinder 7 are discharged to the second conveyor 11. Then, since the second conveyor 11 is installed at the outlet side of the second separator cylinder 7, it cannot be dropped through the selection hole members 1A-N and 5A-N coupled to the sections S1 to N. The soil or wastes 3 having a certain particle size are transferred to a predetermined next process.

Here, the soil or wastes (3) received in the first separation container (4) and the second separation container () during the screening process is usually wet, so that the sections (S1-N) of the cylinders (4, 7) There is a tendency to close the holes of the combined selection hole members 1A-N and 5A-N, where the sorting process by the barrels 4 and 7 is performed simultaneously with the blower unit 9 also operating. It produces a strong wind and brings it into the duct device (8). Then, the wind applied to the duct device 8 is the selection hole member coupled to the sections (S1 ~ N) of the first and second separation cylinders 4, 7 through the duct installed in the duct device (8) ( 1A-N, 5A-N) is led to the perforations to quickly dry wet soil or wastes 3 so that clogging is significantly reduced.

Here, if the section (S1 ~ N) of the first separation cylinder (4) or the second separation cylinder (5) coupled during the screening process (1A-N, 5A-N) or the support member (2A-) When replacing any one of N, 6A-N), only the corresponding parts are disassembled in the reverse order of the assembly, replaced with other normal members, and then connected in the same manner.

As described above, the present invention is formed in a structure that divides the inside of each body of the forward and reverse rotation into a plurality of sections, and then connects them again, so that only the body of the body where the disorder occurs when a failure occurs in the body Since it is separated, repaired and quickly reconnected, it has the advantage of maximizing the maintainability of the body.

According to the present invention, when a problem occurs in the body and needs to be replaced, only the troublesome body can be replaced and the remaining body parts can be reassembled and used without having to replace the whole body. There is also an effect to significantly reduce the.

Claims (4)

In the barrel device of the waste building aggregate selection system for sorting waste by a rotation method, The barrel device is divided into a plurality of sections (S1-N) of the body, each of the ends are joined to each other, the divided section (S1-N) a plurality of selection holes (1A-N) having a constant diameter ) And a first separation cylinder (2A, 2B) for supporting the sorting hole (1A-N), which receives the construction wastes (3) and rotates forward to sort the construction waste (4) and recycled soil. 4) and; It is interlocked with the first separating cylinder 4 and the body is divided into a plurality of sections (S1-N), respectively, the ends are joined to each other, the divided angular section (S1-N) has a certain diameter It consists of a plurality of sorting holes (5A-N) and supporting members (6A, 6B) for supporting the sorting holes (5A-N), the building wastes (3) to accommodate the direction of rotation of the first separation cylinder (4) Cylinder body having a multi-section structure of the aggregate selection system using the construction waste, characterized in that it comprises a second separation cylinder (7) for discharging by rotating in the opposite direction. According to claim 1, wherein each section (S1-N) of the first separator and the second separator cylinder is connected to each other in a screw fastening method characterized in that the barrel having a multi-section structure of the aggregate selection system using construction waste. Device. According to claim 1, wherein the angular section (S1-N) of the first separator cylinder and the second separator cylinder is connected to each other by the welding method having a multi-section structure of the aggregate screening system using the construction waste. . Joining the selection hole members 1A, 5A by welding or screwing to the respective supporting members 2A, 6A of the sections S1-N of the first and second separator cylinders of the waste aggregate selecting device. A first step; A second step of joining another selection hole member (1B, 5B) by welding or screwing to the rear end of the selection hole member (1A, 5A) joined by the first step; In the case of the selection hole member coupled before the end of the selection hole member to be joined by the second step, the last selection hole member sectioned to the rear end of the selection hole member 1B and 5B ( 1N, 5N) the third step of joining by welding or screwing; Joining the support members 2N and 6N to be connected next to the rear end of the last sorting hole member 1N joined by the third step by welding or screwing to complete the assembly of the first or second separator cylinder. A method of assembling a barrel device having a multi-section structure of an aggregate selection system using building waste, comprising the fourth step.

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