KR20110001480A - The scrapped material use of block production equipment cyclone make transaction progress from old electric wire - Google Patents

Abstract

PURPOSE: A block fabrication method using a collected scrapped material when processing a waste electric wire is provided to economically and efficiently process a waste by collecting and processing particle-type wastes occurring in the treatment process of a waste wire. CONSTITUTION: A block fabrication device is able to form the wastes collected in a waste wire treatment process in block shape in a waste wire treatment process which cuts and crushes a waste wire. The block fabrication device includes a waste dropping device(2) at an end portion of an outlet of a waste discharge pipeline(1); the waste dropping device is connected to the waste supply device(4) of the upper portion of the waste compressor(3); and a block discharge device(5) formed in the lower portion of the waste compressor.

Description

The scrapped material use of block production equipment cyclone make transaction progress from old electric wire}

The present invention relates to a block manufacturing apparatus using waste collected in the process of treating waste wires and to cutting and crushing various waste wires (including waste communication cables), and separating them into materials by centrifugal separation by blowing, etc. It is for manufacturing and treating the collected waste (granular paper, granular insulating paper, dust, other foreign matter) as a block during the process.

Various waste wires (paper cable, polyethylene cable, PVC cable, waste communication cable) are separated by material and used as a means to incinerate the waste wire's coating in rivers or incinerators and to commercialize the remaining copper wire as a resource material. There is a drawback that is the source of air pollution and water pollution.

In addition, there is a means for crimping various wires to cause cracks in the coating and passing the coating solution to separate the copper wire from the coating (Domestic Patent No. 555019, date of publication: March 03, 2006). There is a drawback that other environmental pollutants are generated during the regeneration and treatment of the coating solution.

In addition, the present invention provides a means for cutting various waste wires and crushing them to separate the copper particles and the resin particles through material separation process (vibration separation, blowing separation, underwater separation), etc.

Domestic Patent No. 201933 (Notification Date: 1999. 06. 15.),

Registered Patent No. 307933 (Notice date: Nov. 02, 2001),

Registered Patent No. 439666 (notice date: 2004. 07. 14.), but in the case of the means, granular insulating paper, granular paper, The scattered dust and fine foreign matters are collected and collected in the dust collector of each process, transferred to the waste collection container through the waste discharge passage, and consigned through a specialized treatment shop.

Industrial waste collected in the above not only contains various carcinogens, but also has a disadvantage in that a high cost is required for consignment treatment because of its low specific gravity and density.

The present invention is subjected to the cutting and grinding process as described above, the waste collected in the specific gravity separation process (paper particles, insulating paper particles, dust, other foreign matters) into the compression mold of the compression molding machine and compresses it into a block shape to greatly increase the specific gravity It is to be made in a solid state and collected to be consigned in incineration or consignment processing business.

Figure 1 shown in the present invention is a longitudinal cross-sectional view

Figure 2 is a longitudinal sectional view showing a state of supplying waste to the compression mold

3 is a cross-sectional view of the compression cylinder

4 is a longitudinal sectional view of the waste lowering machine;

Figure 5 is a cross-sectional view showing the discharge state of the waste block

6 is a sectional view showing an operation example of a waste compressor;

7 is an exemplary view showing a transport state of the molded waste block;

8 is a process chart of a closed wire.

According to the present invention, as shown in FIG. 8, the copper particles and the coated particles separated by cutting the various waste wires (including the waste communication cable) and repeating the separation by material through the grinding process are blown while performing the phase waste wire treatment process. This is a device that collects and collects the waste collected into the compression mold of the waste compressor and compresses it into a block shape.

The present invention is provided with a waste lowering device (2) at the tip of the outlet of the waste discharge line (1) as shown in Figure 1, the waste lowering device (2) is connected to the waste feeder (4) above the waste compressor (3), A waste block discharger 5 is provided below the waste compressor 3, and a waste block transfer key 6 is provided at an outlet of the waste block discharger 5.

2 and 3, the waste lowerer 2 has an inlet 20a at an upper portion of the lower body 20 and an outlet 20b at a lower portion thereof, and a shaft 22 rotated by the driving motor 21. ) Is provided with a transfer blade 23, in which the waste compressor (3) is provided with a cylinder (31) above the compression mold (30), as shown in Figure 3 and 6, the shaft of the seal (31) A compression rod 32 is provided at a tip thereof, and a waste inflow passage 33 is provided at an upper portion of the compression mold 30 on which the compression rod 32 is positioned, and at the time of forming the compression mold 30, 30a. Underneath, the buffer plate 34 is connected to the shaft 35a of the cylinder 35 to be elevated, and the waste block discharge passage 36 is formed in the transverse direction at the upper point of the buffer plate 34 and serves as the bottom plate. The board 52 is comprised.

The waste feeder 4 is a side one point support plate 42 connecting the outlet 20b of the waste lowerer 2 and the waste inflow passage 33 of the waste compressor 3 as shown in FIGS. 2 and 5. ), A cylinder 40 is provided, and an opening and closing plate 41a is formed at the tip of the cylinder shaft 40a to open and close the mill plate 41, and the opening and closing plate 41a at the top thereof.

1 and 5, the waste block discharger 5 is provided with a cylinder 50 on the support plate 51 on the side of the waste block discharge passage 36 below the waste compressor 3, as shown in FIGS. The front end is provided with the bottom plate 52 which also serves as a waste block base plate.

The waste block transfer key 6 has a transfer conveyor 60 having a bucket 60a at the tip of the outlet of the waste block discharge passage 36 of the waste compressor 3 as shown in FIGS. 5 and 7. It is composed.

In the above description, reference numeral 10 denotes a waste block, 10a denotes a waste, and 100 denotes a waste block storage.

The present invention as described above is characterized in that the granular waste generated in the treatment process of the waste wire can be produced by the block to be collected and processed to efficiently and economically treat the waste.

Hereinafter, specific embodiments of the present invention will be described.

The present invention is a waste wire treatment process for commercializing the separated copper particles and the coating particles by cutting the various waste wires as shown in FIG. 8 and repeating the operation of separating the copper particles and the coating particles (resin) through the crushing process and the separation process. Industrial wastes such as granular paper, granular insulating paper, dust, and other foreign matters contained in the wind blown while performing the dust are collected and discharged through the waste discharge pipe 1 in the collected state, FIGS. 2 and 3. When the feed into the lower body 20 through the inlet (20a) of the waste lowering device 2 of the waste discharge pipe 1 as described above, the feeder is rotated with the shaft 22 by receiving the power of the drive motor 21 23 transfers the granular waste (paper particles, insulating paper particles, dust, fine foreign matters, etc.) 10a to the downward outlet 20b.

As described above, the particulate waste 10a through the waste lowering machine 2 is collected in the waste inflow passage 33 located above the compression mold 30 of the waste compressor 3 as shown in FIGS. 2 and 5. The shaft 40a of the cylinder 40 provided in the waste feeder 4 located on the side of the compressor 3 moves together with the compact plate 41 to collect the particulate waste 10a collected in the waste inflow passage 33. Push into the molding chamber 30a of the compression mold 30 provided in the waste compressor (3).

At this time, the lower discharge port 20b of the waste lowering device 2 maintains a state in which the opening and closing plate 41a connected to the mill plate 41 is blocked so that the discharge port 20b is blocked and the shaft 40a of the cylinder 40 is closed. After the progress of the retreat and retreat and return to the opening and closing plate (41a) and the sealing plate 41 is retracted so that the discharge port (20b) and the waste inlet passage 33 of the waste lowering machine (2) is opened, the granular waste (10a) Is collected into the waste inflow passage 33.

In addition, when the particulate waste 10a flows into the shaping chamber 30a of the compression mold 30 constituting the waste compressor 3 through the waste feeder 4, the waste compressor 3 as shown in FIGS. Compression rod 32 provided at the tip of the shaft 31a of the cylinder 31 installed in the upper portion is lowered to the molding chamber 30a to compress the granular waste 10a.

At this time, the granular waste 10a introduced into the molding chamber 30a is granular paper, granular insulating paper, dust, and other foreign matter, and the specific gravity is small and bulky. Therefore, the granular waste 10a is supplied into the molding chamber 30a of the compression mold 30. When the cylinder 31 of the ground waste compressor 3 descends and compresses, the upper surface of the bottom plate 52 serving as the bottom plate of the waste block ejector 5 is the bottom of the molding chamber 30a at the bottom of the molding chamber 30a. As a result, the buffer plate 34 is subjected to vertical buffering in the molding process.

As described above, a waste block 10 having a predetermined strength and thickness may be manufactured by repeatedly repeating a work in which waste is introduced into the compression mold and compressed.

When the waste block 10 is completed by injecting granular waste 10a from the forming chamber 30a of the compression mold 30 from the waste compressor 3 as described above, the waste compressor 10 as shown in FIGS. When the cylinder 50 below the compression mold 30 of 3) operates and the bottom plate 52 serving as the bottom plate connected to the shaft 50a is retracted in the direction of the support plate 51, the bottom plate 52 serving as the bottom plate 52 The waste block 10 is dropped on the buffer plate 34 so that when the waste block 10 is located in front of the bottom plate 52 which also serves as the bottom plate, the shaft 50a of the cylinder 50 is advanced again, and the waste block 10 is removed. Proceeds to the waste block discharge passage 36 and is pushed out of the compression mold 30 of the waste compressor 3, and the cylinder 50 is retracted and the bottom plate 52 serving as the bottom plate is compressed. It is located at the bottom of the molding chamber (30a).

The waste block 10 discharged to the process is contained in the bucket 60a by the progress of the waste block transporter 6 as shown in FIGS. 5 and 7, and the waste block 10 by the transport conveyor 60. The storage is made in the waste block storage tank 100.

If the above operation process is carried out in a series of continuous process is performed unmanned automation.

In addition, the present invention can efficiently process the particulate waste generated in the manufacturing process of the waste wire, as well as dust can be produced and treated in the form of a block of the particles of dust collected and collected in the work site with high dust generation dust It can be applied in many industrial sites.

1 is a longitudinal cross-sectional view of the present invention;

Figure 2 is a longitudinal sectional view showing a state of supplying waste to the compression mold in the present invention

Figure 3 is a cross-sectional view of the compression cylinder in the present invention

Figure 4 is a longitudinal cross-sectional view of the waste lowerer in the present invention

Figure 5 is a cross-sectional view showing the discharge state of the waste block in the present invention

Figure 6 is a cross-sectional view showing an operation example of the waste compressor in the present invention

Figure 7 is an exemplary view showing a transfer state of the molded waste block in the present invention

8 is a process chart of a closed wire

※ Explanation of the main parts of the drawings

1: waste discharge line 2: waste descender

3: waste compressor 4: waste feeder

5: waste block ejector 6: waste block conveyer

20: descender main body 20a: inlet

20b: outlet 21: drive motor

22, 31a, 35a, 40a, 50a: axis 23: transfer blade

30: compression mold 31, 35, 40, 50: cylinder

30a: forming chamber 32: compression rod

33: waste inflow passage 34: buffer plate

36 waste stream discharge passage 41

41a: opening and closing plate 42, 51: support plate

52: bottom plate combined with a bottom plate 60: transfer conveyor

60a: bucket

Claims (6)

In the waste wire processing process of cutting and crushing waste wires and separating materials by materials, a waste lowering device is disposed at the outlet end of the waste discharge line 1 so that the wastes can be manufactured and processed in a block shape. (2), the waste lowering device (2) is connected to the waste feeder (4) above the waste compressor (3), and below the waste compressor (3) is provided with a waste block discharger (5), the waste block discharger A block manufacturing apparatus using waste collected in the waste wire processing process, characterized by comprising a waste block feeder (6) at the outlet of (5). The method of claim 1 The waste lowering machine 2 is provided with an inlet 20a at the upper part of the lower body 20 and an outlet 20b at the lower part thereof, and a feed blade 23 is connected to the shaft 22 rotated by the driving motor 21. Block manufacturing apparatus using waste collected in the process of treating waste wires The method of claim 1 The waste compressor (3) has a cylinder (31) above the compression mold (30), a compression rod (32) at the tip of the shaft (31a) of the cylinder (31), and the compression rod (32) is located therein. A waste inflow passage 33 is provided on the upper portion of the mold 30, and a buffer plate 34 is connected to the shaft 35a of the cylinder 35 so as to be buffered under the molding chamber 30a of the compression mold 30, and a buffer plate is provided. (34) Block manufacturing apparatus using waste collected in the waste wire processing process, characterized in that the waste block discharge passage 36 formed in the transverse direction at the top has a bottom plate 52 also serving as a bottom plate. The method of claim 1 The waste feeder (4) is provided with a cylinder (40) on the support plate (42) on one side connecting the outlet (20b) of the waste lowering machine (2) and the waste inlet passage (33) of the waste compressor (3). Block manufacturing using waste collected in the waste wire processing process, characterized in that the cylinder shaft (40a) is provided with a closing plate (41a) for opening and closing the closing plate (41) to open and close the discharge port (20b) at the top. Device The method of claim 1 The waste block discharger 5 includes a cylinder 50 on a support plate 51 on the side of the waste block discharge passage 36 below the waste compressor 3, and a bottom plate 52 which serves as a bottom plate at the tip of the cylinder shaft 50a. Block manufacturing apparatus using waste collected in the processing of waste wires, characterized by comprising a) The method of claim 1 The waste block conveyer 6 is dust-collected in the waste wire processing process, characterized in that it comprises a conveying conveyor 60 having a bucket 60a at the tip of the waste block discharge passage 36 of the waste compressor 3. Block Manufacturing Equipment Using Waste

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