KR101110640B1 - Melting apparatus using reclaimed oil - Google Patents

Abstract

PURPOSE: A melting apparatus using reclaimed oil is provided to improve productivity and workability by heating and melting a process target like a waste communication cable for a short time. CONSTITUTION: A disk(14) connected to a driving shaft(13) is rotatably installed in a tank housing(10). A bearing member(40) includes a plurality of support wheels(41). A tank cover(50) closes an upper open part of the tank housing. A net unit(61) has a space for receiving process materials. A basket(60) is rotatably connected to the disk. A basket cover(70) has a net unit and closes one open unit of the basket. A heating device preheats reclaimed oil at a preset temperature.

Description

Melting Apparatus Using Reclaimed Oil {MELTING APPARATUS USING RECLAIMED OIL}

The present invention relates to a melting apparatus using recycled oil for separating and recovering a metal material and a synthetic resin (insulation coating) from a waste communication cable combined with a metal wire and a synthetic resin insulating coating, and in particular, the applicant's patent document (Korean patent registration) No. 0952939) relates to a melting apparatus using regeneration oil optimized for realistically performing the heating and melting step.

Recently, as the price of metal raw materials such as copper (Cu) is formed at a high price, there is a need for recycling of copper wires in the waste communication cable. Accordingly, the present applicant, as in the patent literature, recycled oil and waste communication cable in a furnace. A heat melting step (S1) of mixing and heating a processed material such as to melt the resin of the processed material, a filtering step (S2) of filtering the resin and the regenerated oil mixture to separate the resin and the regenerated oil, and the separated A method of extracting metal wires and oils using a regeneration oil comprising a distillation and cooling step (S3) of extracting oil by condensing steam generated by heating a resin solution, and in particular, a plurality of angles projecting perpendicular to the inner wall of the heating furnace Installed so that the angles come into contact with the edges of the batch of workpieces, and at the same time they are heated while rotating the furnace. A method of extracting metal wire and oil using recycled oil is proposed.

Korean Patent Registration No. 0952939

The present invention effectively heats and melts processed materials such as large-capacity waste communication cables in the heat-melting step of the patent document, and at the same time cleans the melt remaining on the surface of the metal material, including washing the metal material (copper wire) separated from the processed material. It is an object of the present invention to provide a melting apparatus using recycled oil which can be removed.

In order to achieve the above object, the present invention has an open top and a space formed therein, and a regeneration oil inlet 11 and a mixed liquid outlet 12 are formed at an upper and a lower end, respectively, and a drive shaft 13 and a side wall. A tank housing (10) rotatably installed with a connected disk (14); A drive source 20 connected to the drive shaft 13; A pair of bearing members (40) having a plurality of support wheels (41) arranged in arcs on both sides of the inner bottom surface of the tank housing; A tank cover 50 for closing the upper opening of the tank housing; One end is open and a cylindrical mesh 61 having a space for receiving the treatment therein, the outer space in the tank housing in both the outer peripheral surface is supported by the pair of bearing members respectively rotates in conjunction with the disk The basket 60 enabled; And a basket cover 70 which closes one side opening of the basket and forms a net body 71.

As a preferred embodiment, the present invention is characterized in that it further comprises a heating means provided in the tank housing.

As a preferred embodiment, the present invention is characterized in that it further comprises a heating device for preheating the regeneration oil 90 introduced into the tank housing to a predetermined temperature before input.

According to the present invention, it is possible to heat and melt a large volume of processed materials such as a closed communication cable within a short time, and to clean the processed materials before melting and to completely remove the melt remaining after melting in a single melting apparatus, thereby purifying pure metal materials. Can be obtained, which can greatly improve workability and productivity.

1 is an exploded perspective view of a melting apparatus using regeneration oil according to an embodiment of the present invention.
Figure 2 is an exploded perspective view observed from another direction of the melting apparatus using a regeneration oil according to an embodiment of the present invention.
3 is a partial longitudinal cross-sectional view of a melting apparatus using regeneration oil according to an embodiment of the present invention.
4 is a partial cross-sectional view of a melting apparatus using regeneration oil according to an embodiment of the present invention.

The present invention may be modified in various ways and may have various embodiments. Hereinafter, the present invention will be described in detail with reference to exemplary structures of the present invention. However, this is not intended to limit the present invention to only the illustrated form, and the spirit and scope of the present invention include the conventional modifications and equivalents or substitutes of the illustrated forms.

1 is an exploded perspective view of a melting apparatus using a regeneration oil according to an embodiment of the present invention, Figure 2 is an exploded perspective view observed from another direction of the melting apparatus using a regeneration oil according to an embodiment of the present invention, Figure 3 is Partial longitudinal sectional view of a melting apparatus using regenerated oil according to an embodiment of the present invention, Figure 4 is a partial cross-sectional view of a melting apparatus using regenerated oil according to an embodiment of the present invention.

1 to 4, the melting apparatus using the regeneration oil of the present invention is the tank housing 10, the drive source 20, the sensing means 30, a pair of bearing members 40, the top of which is open, The tank cover 50, a cylindrical basket 60 of which one end is opened, is roughly divided into a basket cover 70, preferably heat generating means (not shown) provided in the tank housing 10 and the tank housing inside. It may further include a heating device (not shown) for preheating the recycled oil introduced into.

The tank housing 10, the upper end is opened and a space in which the basket 60 is inserted therein, the inlet 11 is formed so that the regeneration oil 90 is introduced into the upper one side and the closed communication cable at the lower side An outlet 12 is formed through which the mixed resin of the molten synthetic resin melt and the recycled oil is discharged.

In addition, a disk 14 having a disk shape connected to the drive shaft 13 is installed on one wall surface of the tank housing 10, and the drive shaft 13 is connected to a drive source 20 such as a motor. As shown in the illustrated embodiment, the drive source 20 is connected to the drive shaft 13 by a connecting means such as a chain or a belt, so that the disc 14 connected to the drive shaft 13 when the drive source 20 is driven to rotate. Is rotated. In this case, a chain cover 21 may be provided to protect the chain or the belt.

The bearing member 40 includes a plurality of support wheels 41 arranged in arcs on both inner side surfaces of the tank housing 10. In more detail, each of the bearing members 40 has a pair of wheel supports 42 spaced apart from each other by a circular arc on both sides of the inner bottom surface of the tank housing 10, and the support wheels 41 are A plurality of each of the wheel supports 42 is rotatably arranged.

At this time, the diameter of the circular arc formed by each of the support wheels 41 and the diameter of the basket 60 are the same, so that each support wheel 41 is the basket when the basket 60 is seated on each bearing member 40. It comes into contact with the outer circumferential surface of (60).

The tank cover 50 is provided to close the upper opening of the tank housing 10, and a plurality of tank covers 50 are disposed on the upper end of the tank housing 10 to closely contact the tank housing 10 and the tank cover 50. The fixing hole 18 is formed with a perforated flange 17, and the fixing hole 18 corresponding to each of the fixing holes 18 is drilled around the tank cover 50 to form each fixing hole 18 ( 51) may be fixed by fastening with a fixing means such as a bolt.

One side of the tank cover 50 may be formed with a ring 52 for connecting a string so that the tank cover 50 can be transported using a crane or a hoist, and also in a molten state inside the tank housing 10. A viewing window 53 made of a transparent material may be formed so as to be visually identified.

The basket 60 is formed of a cylindrical mesh 61 having one end open and a space for accommodating a processed material such as a closed communication cable therein. The basket 60 includes the tank housing. 10, both sides of the outer circumferential surface of the basket 60 is supported by the pair of bearing members 40, respectively, when the inner space is inserted into the inner space. In this state, the basket 60 is interlocked with the rotation of the disk 14. Allow it to rotate.

The connection structure of the disk 14 and the basket 60 may be configured as follows.

A straight paddle 15 protrudes inwardly in the inner surface of the disk 14, and a distance greater than at least the thickness of the paddle 15 to allow the paddle 15 to be inserted into the closed end of the basket 60. A pair of paddle guides 62 spaced apart in parallel to each other are projected.

At this time, the disk 14 or the drive shaft 13 is provided with a sensing means 30 such as a proximity sensor, for example, the sensing means 30 is the vertical paddle 15 is always vertical when the disk 14 is stopped. To control the power of the drive source 20 to be located. That is, when the disk 14 or the drive shaft 13 is stopped, the sensing means 30 senses that the paddle 15 is positioned vertically to cut off the power of the drive source 20.

An outer circumferential surface of the basket 60 may be formed with a ring 67 to connect a string to transport the basket 60 by using a crane or a hoist, and the ring 67 may have the paddle guide 62. ) Is installed in line with the longitudinal direction.

In this way, by connecting the rope of the hoist or crane to the basket (60) ring 67, the basket 60 is positioned on the tank housing (10), and then the basket (60) is lowered and the paddle (15) is placed vertically. ) Is inserted into the paddle guide 62 and engaged with each other, so that the disk 14 and the basket 60 may rotate in conjunction with each other.

At this time, the inclined guide portion 63 is formed at both ends of the pair of paddle guides 62 so that the separation distance of each paddle guide 62 is gradually extended, the paddle 15 is brought into the paddle guide 62. It can be inserted easily.

In addition, in order to prevent the paddle guide 62 from being deformed due to the rotational force of the disk 14, a closed end of the basket 60 has a support vertically connected to each outer surface of the pair of paddle guides 62 ( At least one 64 may be installed to support the respective paddle guides 62.

On the other hand, in order to allow the basket 60 to come in place when the basket 60 is seated into the tank housing 10, a plurality of protruding vertically inwardly on the opposite wall surface in the tank housing 10 Guide ribs 16 are provided, and the inner end of each of the guide ribs 16 is provided in a form gradually inclined downward in the inward direction as shown in FIG.

The basket cover 70 is provided to close the opening of the basket 60 and is formed of a mesh 72 to allow regeneration oil to flow into the basket cover 70.

A plurality of fixing holes 71 are formed on the circumferential surface of the basket cover 70, and fixing holes 66 are formed at positions corresponding to the fixing holes 71 around the opening of the basket 60. Fixing means such as bolts pass through the fixing holes 71 and 66 to fix the basket 60 and the basket cover 70 to each other.

In order to prevent the basket cover 70 from being deformed, a cross-shaped support 73 may be further formed on the outer surface of the basket cover 60.

In addition, the inner circumferential surface of the basket 60 may be radially provided with a plurality of angles 65 protruding inward to allow the processed material 80 to flow in the basket 60. Will be clear.

Although not shown, a heat generating means may be provided inside the wall of the tank housing 10 to generate heat by electrical resistance, and the heat generating means heats the regenerated oil introduced into the tank housing 10 to maintain a desired temperature. You can do that.

In addition, in order to quickly melt the processing material 80, the regeneration oil 90 introduced into the tank housing 10 may be preheated in advance, and for this purpose, the inlet 11 is connected to a conventional heating device. do.

Hereinafter, the operation of the melting apparatus using the regeneration oil of the present invention will be described, through which the present invention will be further embodied.

Insert the processed material such as the waste communication cable cut to a certain size through the open surface of the basket 60 while the basket 60 and the basket cover 70 are separated, and the basket cover 70 and the basket 60 ).

After connecting a row of a vehicle such as a hoist to the hook (67) of the basket 60 to move to the top of the tank housing 10 while the basket 60 is pressed, and then the basket 60 to the tank housing (10) ) Settle inside. At this time, the basket 60 is guided to the right position by the guide rib 16, the vertically arranged paddle 15 is interposed between the pair of paddle guides 62 to be engaged with each other.

In the state in which the basket 60 is inserted, the top opening surface of the tank housing 10 is closed by the tank cover 50 and the inlet 11 is opened to inject the regeneration oil 90. The regenerated oil 90 may be elevated to 80 ~ 120 ℃ by a conventional heating device, 30 to 60% by weight of the treated material 80, regenerated oil (90) at a ratio of 40 to 70% by weight Inject (90).

Thereafter, when the driving source 20 is operated, the disk 14 rotates so that the paddle 15 rotates, and in conjunction with this, the basket 60 rotates while being supported by the bearing member 40.

When the regeneration oil 90 is maintained in the range of 100 to 120 ° C. by the heat generating means installed in the tank housing 10, the synthetic resin of the processing product 80 is melted and mixed into the regeneration oil 90.

At this time, the angle 65 installed on the inner circumferential surface of the basket 60 flows the processed material 80. That is, during the heating and melting operation, the processing material 80 sinks to the lower portion of the basket 60 by the load. If the angle 65 is not installed, the processing materials 80 are attached to each other so that the dissolution is not performed well. As a result, there is a closed end in which the melting operation time is delayed.

On the other hand, if the angle (65) is installed, when the basket (60) rotates, the processing material (80) collides with the angle (65), and ascends and descends, thereby minimizing adhesion between the processing material (80) and at the same time synthetic resin. Agglomeration of the melt can be prevented.

After the melting operation is completed, the outlet 12 is opened to discharge the mixed oil mixed with the synthetic resin melt and the regenerated oil, leaving only the metal material except the synthetic resin in the processed material 80 in the basket 60.

According to the melting apparatus of the present invention, in the state in which the basket 60 into which the processing material 80 is inserted is mounted in the tank housing 10, the basket 60 is rotated by inputting regeneration oil that is not heated before melting. The processed material 80 may be washed again through a process of discharging the regenerated oil.

In addition, after the melting operation is completed, the mixed oil is discharged, and then the recycled oil is introduced into the tank housing again, the basket 60 is rotated, and the recycled oil is discharged to completely discharge the mixed oil remaining on the surface of the metal material. It can be removed to obtain a pure metal material.

The mixed oil discharged after the melting operation may be separated and recycled into wax and regenerated oil through compression, filtration, and the like as in the method of the patent document, and a detailed description thereof will be omitted since it may obscure the subject matter of the present invention.

The foregoing has been described according to a limited embodiment showing the technical idea of the present invention, but the present invention is not limited to the above-described specific embodiments, and changes in some of the components of the embodiments, such as in the claims, claims Various modifications can be made by those skilled in the art without departing from the gist of the present invention, and such modifications should not be individually understood from the technical spirit or prospect of the present invention. will be.

10 ... tank housing 11 ... inlet 12 ... outlet
13 ... drive shaft 14 ... disc 15 ... paddle
16 ... guide rib 17 ... flange 18 ... fixing hole
20 ... drive source 21 ... chain cover 30 ... sensing means
40 ... bearing member 41 ... support wheel 42 ... wheel support
50 ... tank cover 51 ... fixing hole 52 ... hook
53 ... sights 60 ... basket 61 ... manche
62 ... paddle guide 63 ... inclined guide 64 ... support
65 ... Angle 66 ... Fixing hole 67 ... Hook
70 ... basket cover 71 ... fixing hole 72 ...
73 ... support 80 ... closed communication cable 90 ... reclaimed oil

Claims (10)

The upper end is opened and a space is formed therein, and a regeneration oil inlet 11 and a mixed liquid outlet 12 are formed at the upper and lower ends, respectively, and a disk 14 connected to the drive shaft 13 is rotatably installed at one wall. Tank housing 10;
A drive source 20 connected to the drive shaft 13;
A pair of bearing members (40) having a plurality of support wheels (41) arranged in arcs on both sides of the inner bottom surface of the tank housing;
A tank cover 50 for closing the upper opening of the tank housing;
One end is open and the cylindrical net body 61 is formed with a space for receiving the processing 80 therein, in the inner space of the tank housing, both outer peripheral surfaces are supported by the pair of bearing members, respectively the disk and A basket 60 which is rotatable in association;
A basket cover 70 which closes one side of the basket and forms a mesh 72;
Melting apparatus using a regeneration oil comprising a. The method according to claim 1,
Melting apparatus using a regeneration oil, characterized in that it further comprises a heating means provided in the tank housing. The method according to claim 1,
Melting apparatus using a regeneration oil further comprises a heating device for preheating the regeneration oil (90) flowing into the tank housing to a predetermined temperature before input. The method according to claim 1,
Melting apparatus using a regeneration oil, characterized in that a plurality of angles (65) protruding from the inner peripheral surface of the basket. The method according to claim 1,
A straight paddle 15 protrudes from the inner surface of the disk,
At least a pair of paddle guides 62 are spaced apart in parallel at a distance greater than the thickness of the paddle to protrude the paddle into the closed end of the basket,
Melting apparatus using regeneration oil, characterized in that it further comprises a sensing means for controlling the drive source so that the paddle (15) is located vertically when the disc is stopped. The method according to claim 5,
Both ends of the pair of paddle guides are inclined guide portion 63 is inclined so that the separation distance of each paddle guide is gradually formed melting apparatus using a regeneration oil. The method according to claim 5,
Melting apparatus using a regeneration oil, characterized in that at least one support (64) is further connected to the outer surface of the pair of paddle guides to support each paddle guide. The method according to claim 5,
At least one ring 67 is formed on an outer circumferential surface of the basket 60, and the ring 67 is installed in a line with the length direction of the paddle guide 62. . The method according to claim 1,
A plurality of guide ribs 16 protruding inwardly perpendicularly to each other are provided on opposite wall surfaces of the tank housing, and inner ends of the guide ribs 16 are gradually inclined downward in the inward direction. Melting apparatus used. The method according to claim 1,
The bearing member, a pair of wheel support 42 spaced a predetermined distance on the arc,
Melting apparatus using a regeneration oil, characterized in that it comprises a plurality of support wheels (41) rotatably arranged between each wheel support.

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