KR200488603Y1 - Sorting structure for specific gravity sorter for waste cable - Google Patents

Abstract

The present invention relates to a gravity sorter, and more particularly, to a gravity sorter that is sloped from an upper portion to a lower portion and has a circumferential upper portion protruding therefrom, and a sidewall portion for forming a sorting space on the inner side, Wherein the vibration isolator is formed at the center of the diaphragm so as to protrude upward so as to partition the sorting space in the width direction into an input space and a circulation space, And a water supply device for separating the conductor and the coating by injecting water into the charging space, wherein the water supply device comprises a water separator for separating the specific gravity of the lower layer and the collecting part of the upper layer,
The diaphragm and the water supply unit are provided with the inclined diaphragm and the water supply unit, and the flow rate of the water to be supplied is regulated so that the structural simplification is possible, And to a sorting structure for selecting the specific gravity of a waste wire to enable sorting.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sorting structure for a specific gravity sorter,

The present invention relates to a specific gravity separator, and more particularly, to a sorting structure for a waste wire specific gravity sorter that enables efficient sorting of a conductor and a covering (plastic) of a broken waste wire.

Most of the waste wires are recycled by incision breaking and separated into copper and cloth (plastic: PE, PP, PVC).

On the other hand, in 2002, Korea's domestic wire production statistics show that annual wire production is about 4 trillion won, the waste wires are about 500 billion won, telecommunication and optical cable are about 500 billion won, and the waste wires are about 100 billion won. .

If the separation efficiency of the fine copper wire is low, the coated plastic can not be recycled, and a great deal of cost is spent for the treatment. In case of copper wire such as communication line, copper is removed and the remainder is made of PE, PP, and PVC. All of these materials can be separated and recycled. Recycling, replacing old communication lines, increasing use of automobiles and electronic products, and the generation of waste wires are increasing every year. In order to recycle waste wires, it is urgent to develop a technology that can completely remove copper and cover plastic.

If waste plastic is recycled, it is impossible to recycle plastic unless the particulate metal material is removed. Therefore, it is urgent to develop a technology that can completely remove particulate metal in the pretreatment process.

Because of its excellent material properties, plastics have increased by more than 10% every year, and it is estimated that within 5 years, about 11 million tons of production and 5 million tons of waste plastics can be generated. If recycling technology of waste plastics is not developed, it is estimated that not only environmental problems but also economic losses are considerably large. Development of screening technologies for waste plastics can contribute to environmental conservation, recycling of useful resources, development of the plastic industry, and national economic development.

Generally, the electric wire consists mainly of a conductor portion and a covering portion. The conductor is copper, aluminum, or the like and is a part that smoothes the electric flow, which is the most basic electrical performance of the electric wire. The covering portion is made of PVC, PE, and rubber, and is made of an insulator for isolating the electric current from the conductor portion and an outer covering made of PVC, PE, and rubber to protect the insulator and the conductor portion from damage . Therefore, to remove particulate copper from the waste wire sheath, the conductors must be separated from the insulator and the outer sheath and the like.

On the other hand, a conventional electrostatic separator is provided for removing particulate copper from a waste wire covering.

However, the above electrostatic separator has a problem in that the structure of the electrostatic separator is complicated and a considerable cost is put into the facility. In particular, maintenance and maintenance such as replacing a paper belt or the like at regular intervals is very inconvenient. There was a bad problem.

Korean Utility Model Registration No. 10-0288589. Korean Patent Registration No. 10-0838259.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a diaphragm comprising a diagonal diaphragm and a water supply unit to allow water to be supplied, The present invention has been made in view of the above problems, and it is an object of the present invention to provide a sorting structure for a sorting machine for waste wire to enable more efficient sorting through a dual sorting structure through a specific gravity difference using a water flow rate.

As a concrete means for achieving the above object, there is provided a vibration sensor comprising a diaphragm formed so as to extend from an upper portion to a lower portion and formed with a sidewall portion protruding upward to form a sorting space on the inner side, And a screening structure for selecting a coating weight of the waste wire specific gravity separator,

The vibration-

A diaphragm formed at the center of the diaphragm to divide the sorting space in the width direction into an input space and a circulation space and having both ends spaced apart from the sidewall portion to form a specific gravity separator in the lower portion and a collecting portion in the upper portion, and,

And a water supply device for injecting water into the charging space to intermit the dispersion of the conductor and the coating by the buoyant force and the flow velocity.

As described above, the screening structure for a specific wire weight selector for waste wire is such that efficient sorting of conductors and coatings is carried out by primary selection of conductors and coatings using pulsed wire vibration and water flow and secondary selection using water flow rate change It is possible to obtain a possible effect.

1 is a side cross-sectional view of a sorting structure for a scavenging wire specific gravity sorter according to the present invention;
Fig. 2 is a plan view of the sorting structure for a specific wire harness detector of the present invention; Fig.
3 shows another embodiment of the sorting structure for the present invention waste wire specific gravity sorter.
Fig. 4 is a side view of the sorting structure for the scavenging wire specific gravity sorter according to the present invention; Fig.
Fig. 5 is a plan view of the sorting structure of the inventive waste wire specific gravity sorter. Fig.
Fig. 6 is a planar operational state diagram of another sorting structure for the present invention waste wire specific gravity sorter according to another embodiment. Fig.

The terms or words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may properly define the concept of the term to describe its own design in the best possible way It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It should be understood that various equivalents and modifications may be present.

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

Fig. 1 is a side cross-sectional view of the screening structure for a specific wire winding specific gravity sorter according to the present invention, and Fig. 2 is a plan view of the screening structure for a specific winding wire specific gravity sorter of the present invention.

As shown in FIGS. 1 and 2, the discriminating structure for a waste wire specific gravity sorter according to the present invention is formed so as to extend from the upper layer portion 101 to the lower layer portion 102 and protrude upward to form a sorting space 105 on the inner side The heavy conductor moves to the upper layer 101 side through the diaphragm 110 and the lighter sheath moves to the lower layer 102 layer due to the vibration of the vibration discriminating part 100 comprising the diaphragm 110 having the side wall part 120 formed thereon. The water is supplied to the sorting space 105 from the sorting structure for selecting the specific weight of the waste wire to make it possible to select the conductor and the sheath.

The diaphragm 130 is formed at the center of the diaphragm 110 in the width direction to form the diaphragm 110 in the diaphragm 110 And is formed in the widthwise direction into the charging space 105a and the circulation space 105b.

At this time, the barrier ribs 130 are shorter than the length of the diaphragm 110, and are formed at both ends of the barrier ribs 130 so as to be spaced apart from the side wall portions 120 to connect the input spaces 105a and the circulation spaces 105b. The specific gravity separating section 106 of the lower layer section 102 and the collecting section 107 of the upper layer section 101 which can communicate with each other.

That is, when the sorting material (the waste wire) mixed with the conductor and the coating is charged into the input space 105a in the upper layer portion 101, the vibration discriminating portion 100 vibrates the relatively heavy conductor 10 due to the vibration of the diaphragm 110, It is possible to select the vibration of the conductor and the covering such as moving to the upper layer portion 101 along the inclination and allowing the relatively lighter covering to move to the lower layer portion 102.

In addition, the present invention further comprises a water supply device 200 for supplying water to the sorting space 105 in which the conductor and the coating are sorted as described above, To < / RTI > float the dispersion of the sorting and float the relatively light sorting.

At this time, the water supply device 200 is constituted of a water tank 210, and the water tank 210 is configured to store water.

The water supply device 200 includes a water supply unit 220 for discharging the water in the water tank 210 and supplying the water to the charging space 105a.

The water supply unit 220 includes a water supply pipe 221. The water supply pipe 221 is connected to the vibration isolator 100 through the water tank 210. In the middle of the water supply pipe 221, (221a) is constituted so that water can be discharged and supplied.

A distribution pipe 222 is formed at an end of the water supply pipe 221. The distribution pipe 222 is configured to be introduced into the discharge space 105a in the width direction and configured to have at least one or more rows, 105a in the longitudinally intermediate position.

A water spray nozzle 223 capable of discharging water into the injection space 105a is formed in the distribution pipe 222. The water injection nozzle 223 includes a plurality of injection spaces 105a, ) To allow even supply of water.

That is, the water supply device 200 disperses the conductor and the cloth in the course of the water discharged into the input space 105a through the water injection nozzle 223 to the lower layer portion 102 side, floats the lower layer portion 102 while floating the lightweight cloth, The specific gravity discriminating unit 106 of FIG.

In another embodiment of the present invention, it is possible to select the circulation of the conductor and the coating in the selection process with reference to FIG.

To this end, the partition 130 may further include a flow path 131 on the side of the lower layer 102 so that the introduction space 105a and the circulation space 105b communicate with each other.

The inclined wall 150 may extend from the upper side 101 of the flow path 131 to the lower side 102 of the flow path 131, So that it is connected to the side wall 120.

That is, when the flow path 131 and the inclined wall 150 are formed as described above, it is possible to re-select the coating that has not been sorted in the process of moving the selected conductor through the circulation space 105b.

Hereinafter, the operation of the sorting structure for a specific design waste wire specific gravity sorter having the above-described structure will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 and 2, the screening structure for a waste wire specific gravity sorter according to the present invention is cut and crushed to select a conductor and a coating according to the specific gravity of the screening material in which the conductor 10 and the covering 20 are mixed.

4 and 5, the object to be filtered is supplied to the vibrating selector 100 for vibrating operation, and the object to be filtered is inputted into the input space 105a of the screening space 105, And is introduced into the upper layer portion 101 side.

Accordingly, the vibrating plate 110 is provided with vibration power and water supply in the input space 105a. In this vibration process, the conductor 10, which is relatively heavy, moves along the diaphragm 110 along the diaphragm 110 101 and is collected in the collecting part 107. The relatively light covering 20 moves to the lower layer part 102 so that the conductor and the covering 20 are primarily sorted.

In this case, the conductor 20 is moved along the diaphragm 110 along the diaphragm 110, and the conductor 20 can be moved. In this case, It is possible to select the secondary specific gravity by using the phenomenon that the flow rate of water is slowed by the flow of water at the lower portion of the diaphragm.

That is, in the water supply apparatus 200, water is discharged from the water tank 210 by the operation of the pump and water is supplied to the charging space 105a through the water supply unit 220 to thereby connect the conductor 10 and the cover 20 The specific gravity is selected.

In the embodiment of the present invention, the water in the water tank 210 is distributed and supplied to the distribution pipe 222 through the water supply pipe 221, and through the water injection nozzle 223, .

The mixed conductor 10 and the sheath 20 are moved to the lower layer portion 102 by the flow of the water in the input space 105a so that the conductor 10 and the sheath 20 moving together with the water The specific gravity difference is generated, so that the heavy conductor 10 sinks and the lightweight cloth 20 floats on the water.

The conductor 10 and the cover 20 are configured such that the specific gravity separator 106 is extended beyond the flow path of the input space 105a in the process of reaching the specific gravity separator 106 of the lower portion 102, The conductor 10 and the cover 20 are instantaneously disturbed by the non-separator 106 while the flow rate of water is increased in the process of expanding the flow path. In this process, the conductor 10 and the cover 20 Dispersion and specific gravity difference.

The conductor 10 and the cover 20 are separated from each other by the vibration of the diaphragm 110 in a state where the conductor 10 is submerged in the water, It is possible to carry out mixed collection with the conductor 10 selected in the charging space 105a through the movement of the upper layer portion 101 through the charging portion 107 and the recovery portion 107. [

The complete separation of the conductor 10 and the covering 20, such as allowing the specific gravity of the conductor 20 and the conductor 20 to be secondarily made possible, And the cover 20 floating by the buoyant force in the lower layer portion 102 is overflowed to the upper portion of the side wall portion 120 together with water to be discharged and recovered as described above.

On the other hand, the water and the cloth 20 to be discharged as described above are filtered through a separate screen 231, and the water is stored in the water tank 210 through the screen 231 to be reused There will be.

3, if the flow path 131 is formed in the partition 130 and the inclined wall 150 is further formed in the circulation space 105b, as shown in FIG. 6, The conductor 10 and the sheath 20 which are not yet sorted can be included in the process of moving the conductor through the circulation space 105b, It is possible to move again to the input space 105a through the flow path 131 and to re-select it by the vibration, the flow velocity and the flow rate.

That is, the conductor 10 and the sheath 20 moved to the input space 105a again move the conductor 10 to the upper layer 101 and the sheath 20 to move to the lower layer 102 , It is possible to more precisely sort through the circulation of the conductor (10) and the cover (20).

As described above, in the selection structure for selecting waste wire specific gravity sorters, it is possible to select the conductor and the coating of the waste wire by primary sorting using water and secondary gravity sorting using specific gravity difference using the water flow rate difference So that an efficient sorting operation becomes possible.

10: Conductor 20: Cloth
100: Vibration selector 101: Upper layer
102: Lower layer
105: sorting space 105a: input space
105b: circulation space 106: specific gravity separator
107: recovery unit 110: diaphragm
120: side wall part 130: partition wall
131: flow path 150: inclined wall
200: water supply device 210: water tank
220: water supply part 221: water supply pipe
221a: Pump 222: Distribution pipe
223: Water injection nozzle

Claims (3)

And a vibrating plate 110 formed to be inclined from the upper layer portion 101 to the lower layer portion 102 and having a sidewall portion 120 protruding upward and forming a sorting space 105 on the inner side, ), The conductor and the cover of the waste wire being selected by the vibration of the wire,
The vibration selecting unit (100)
The diaphragm 110 is formed at the center of the diaphragm 110 so as to be upwardly projected to divide the sorting space 105 into the input space 105a and the circulation space 105b in the width direction, A flow path 131 in which the charging space 105a and the circulation space 105b communicate with each other is formed on the side of the lower layer portion 102, And a barrier rib (130) constituting the barrier rib (130).
The circulation space 105b is configured to be closed through the inclined wall 150 connected to the side wall portion 120 from the upper side 101 side of the flow path 131 to the lower side portion 102;
Further comprising a water supply device (200) for injecting water into the charging space (105a) and controlling the dispersion of the conductor and the coating by the buoyant force and the flow velocity.
The method according to claim 1,
The water supply device (200)
A water tank 210 in which water is stored; And
And a water supply unit 220 for supplying water from the water tank 210 to the middle part of the input space 105a,
In the course of the water being discharged to the charging space 105a, the conductor and the coating are moved to the specific gravity separator 106 during the flow of the water to the lower layer 102, Wherein the conductor and the sheath are dispersed through the through hole.
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