KR101842985B1 - scrap pre heating system - Google Patents

Abstract

The present invention relates to a metal scrap preheating apparatus, comprising: a feeding unit (10) for feeding metal scrap; a storage unit (20) storing metal scrap transferred from the feeding unit (10); a transfer unit (30) for transferring the storage unit (20); a preheating unit (40) temporarily connected to the storage unit (20) when the storage unit (20) is transported to the vicinity by the transfer unit (30) so that the metal scrap put in the storage unit (20) is used for heat using the heat generated from gas fuel; and a transport unit (50) for transporting the metal scraps discharged from the storage unit (20) to an electric induction furnace (1) when the storage unit (20) is transported to the vicinity by the transfer unit (30).

Description

Scrap preheating system.

The present invention relates to a metal scrap preheating apparatus capable of reducing power used in an induction furnace when metal scrap is melted by preheating the metal scrap before it is introduced into an induction furnace.

In the production of metal castings, it is important to prevent the metals from being contaminated with non-metallic inclusions. These inclusions are usually in the oxide state and are usually formed by the reaction between the molten metal and the crucible containing the molten metal. It is very important to prevent the contamination of metal castings by using crucibles that have the minimum reactivity with the melt.

However, nickel-based heat-resistant alloys (superalloys), which may include aluminum, titanium, or hafnium, react vigorously with oxide crucibles and form inclusions during melting.

In order to solve this problem, Korean Utility Model Publication No. 1990-0016476 discloses an induction coil having a plurality of windings forming a volume for receiving a metal, and applying an electromagnetic force to the metal, the electromagnetic force increasing toward a lower portion of the metal. Means for applying a current to the induction coil; Supporting means for supporting the metal at the lower side and having a through hole; And means for holding the support means at a predetermined temperature. The induction melting furnace (induction furnace) has been disclosed.

However, the conventional technology has a problem that the power cost is relatively high.

Particularly, in the related art, since the induction electric furnace is frozen and needed to be thawed during the winter season, a large amount of electric power is burdened, the efficiency of dissolving the scrap metal is lowered, and the electric power cost is additionally incurred.

Further, in the prior art, there is a problem that a large amount of water is contained in the scrap put in the induction electric furnace during the summer season, thereby causing safety risk such as explosion risk and scattering.

Korean Patent Publication No. 1990-0016476 (Nov. 13, 1990)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a method and apparatus for preheating a metal scrap, It is intended to provide a metal scrap preheating apparatus capable of reducing the power cost required for induction dissolution of metal scrap by improving the metal casting production capability per unit time.

A metal scrap preheating apparatus according to the present invention comprises: a feeding part (10) for conveying a metal scrap; A storage unit 20 for storing metal scrap transferred from the feeding unit 10; A transfer unit 30 for transferring the storage unit 20; When the storage unit 20 is transferred to the vicinity by the transfer unit 30, the metal scrap temporarily connected to the storage unit 20 is preheated by the heat generated from the gaseous fuel A preheating portion 40; And a conveying part 50 for conveying the metal scraps discharged from the storage part 20 to the electric induction furnace 1 when the storage part 20 is transported to the vicinity by the conveying part 30 .

The feeding unit 10 includes a feeding frame 11, a feeding chute 12 disposed on an upper surface of the feeding frame 11 for storing metal scraps, And a feeding vibrator 13 for applying vibration to the feeding chute 12 so as to fall down.

The storage unit 20 includes a storage frame 21 slantly installed in the transfer unit 30, a vessel 22 installed in the storage frame 21 so as to be rotatable and storing metal scrap, And a roller 23 for rotating the vessel 22 in place while the preheating section 40 preheats the metal scrap stored in the storage section 20, And a rotatable vessel sheath support device (33).

In addition, the vessel 22 includes a plurality of ribs 22-1 protruding from the inner surface thereof.

The storage unit 20 includes a lower rail 24 having a circular arc shape and inclined at a predetermined angle to the transfer unit 30 and a lower rail 24 having a larger width than the lower rail 24 A bezel upper rail 25 formed at an angle and inclined and formed in an arc structure, a bezel upper wheel 26 moved along the bezel lower rail 24 and coupled to the front of the storage frame 21, A lower vessel wheel 27 which is moved along the vessel upper rail 25 and is coupled to a lower end of the storage frame 21 and a vessel 22 which is moved in conjunction with the storage frame 21 are turned upside down, And a winch 28 for pulling the storage frame 21 using a wire bound to the storage frame 21 to be discharged.

The storage unit 20 includes a vessel rotation ring 29-1 spaced apart from the outer circumferential surface of the vessel 22 by a predetermined distance and a vessel ring 29-1 installed between the vessel rotation ring 29-1 and the vessel 22 And a plurality of bezel elastic coupling pins 29-2 which are formed of a plurality of bezel elastic coupling pins.

The preheating unit 40 includes a preheating cover 41 mounted on the upper surface of the vessel 22 and a preheating burner 42 installed in the preheating cover 41 for transmitting heat generated from the gaseous fuel to metal scrap ).

Accordingly, the metal scrap preheating apparatus according to the present invention can shorten the induction dissolution time of the metal scrap by preheating the metal scrap with the gaseous fuel, which is inexpensive before the metal scrap is introduced into the induction furnace, The present invention is to provide a metal scrap preheating apparatus capable of reducing the electric power cost required for induction dissolution of metal scrap by improving its capability and contributing to the prevention effect of industrial safety accidents.

1 is a plan view showing a metal scrap preheating apparatus according to the present invention.
2 is a side view showing a feeding unit, a storage unit, and a feeding unit according to the present invention;
3 is a side view showing a preheating part, a storage part, and a transfer part according to the present invention.
FIG. 4 is a side view showing a carrying unit, a storage unit, and a transfer unit according to the present invention. FIG.
5 is a side view showing a state in which metal scrap of the storage part according to the present invention is discharged to the transportation part.
6 is a perspective view of a storage unit according to the present invention;
7 is a cross-sectional view illustrating a storage unit according to the present invention.
8 is another cross-sectional view of a storage unit according to the present invention.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

FIG. 1 is a plan view of a metal scrap preheating apparatus according to the present invention, FIG. 2 is a side view showing a feeding unit, a storage unit, and a conveyance unit according to the present invention, FIG. 3 is a side view showing a preheating unit, FIG. 4 is a side view showing a carrying unit, a storage unit, and a transfer unit according to the present invention, and FIG. 5 is a side view showing a state in which a metal scrap of a storage unit according to the present invention is discharged to a carrying unit.

As shown in FIG. 1, the metal scrap preheating apparatus according to the present invention includes a feeding unit 10, a storage unit 20, a transfer unit 30, a preheating unit 40, and a conveying unit 50.

The feeding part 10 transports metal scrap, and the metal scrap is a solid metal object having various structures.

As shown in FIG. 2, the metal scrap transferred from the feeding unit 10 is stored in the storage unit 20, and metal scrap is temporarily stored.

The feeding unit 30 feeds the storage unit 20 to the feeding unit 10, the preheating unit 40 or the feeding unit 50 so that the feeding unit 20 is moved to the feeding unit 10 The weight of the metal scrap stored in the storage unit 20 is measured by a weight sensor and stored in the storage unit 20 when the metal scrap is stored in the storage unit 20, After the preheating of the metal scrap is completed in the preheating part 40 after the preheating part 40 is transferred to the preheating part 40, the storage part 20 is transferred to the conveying part 50.

The conveying unit 30 may include a conveying rail 31 and a conveying rail 32. [

The storage unit 20 is mounted on the transporting carriage 31.

The conveyance rail 32 guides the movement path of the conveyance truck 31.

3, the preheating unit 40 temporarily connects the storage unit 20 to the storage unit 20 when the storage unit 20 is transported to the vicinity by the transfer unit 30, Is preheated by using the heat generated by the gaseous fuel combustion. Accordingly, the temperature of the metal scrap stored in the storage unit 20 is increased.

4 to 5, when the storage unit 20 is transported to a nearby place by the transport unit 30, the transport unit 50 may transport the metal scraps discharged from the storage unit 20 to an electric induction (1). Accordingly, as the metal scrap preheated in the electric induction furnace 1 is dissipated electrically, the electric power required for melting the metal scrap is reduced.

Accordingly, the metal scrap preheating apparatus according to the present invention can shorten the induction dissolution time of the metal scrap by preheating the metal scrap with the gaseous fuel, which is inexpensive before the metal scrap is introduced into the induction furnace, And a metal scrap preheating device capable of reducing the electric power cost required for induction electric melting of the metal scrap by improving its capability.

Referring again to FIG. 2, the feeding unit 10 may include a feeding frame 11, a feeding chute 12, and a feeding vibrator 13 in more detail.

Since the feeding frame 11 is a normal frame, a detailed description will be omitted.

The feeding chute 12 is installed on the upper surface of the feeding frame 11 and metal scrap is stored.

The feeding vibrator 13 is installed on the lower side of the feeding chute 12 and vibrates the feeding chute 12 so that the metal scrap stored in the feeding chute 12 falls into the storing part 20. As a result, the metal scraps stored in the feeding chute 12 are gradually dropped.

FIG. 6 is a perspective view showing a storage unit according to the present invention, FIG. 7 is a sectional view showing a storage unit according to the present invention, and FIG. 8 is another sectional view showing a storage unit according to the present invention.

6 to 8, the storage unit 20 includes a storage frame 21, a vessel 22, a roller 23, a vessel lower rail 24, a vessel upper rail (not shown) 25, a bezel upper wheel 26, a lower bezel 27, a winch 28, a bezel rotary ring 29-1, and a bezel expansion joint pin 29-2.

The storage frame 21 is formed in an L-shaped structure and is inclined with respect to the transfer unit 30.

The bezel 22 is rotatably installed in the storage frame 21, and a metal scrap is stored and an upper surface thereof is opened. At this time, since the storage frame 21 is inclined to the transporting unit 30, the vessel 22 is inclined.

The roller 23 rotates the vessel 22 in place while the preheating unit 40 preheats the metal scrap stored in the storage unit 20. Referring to Figure 6, , The metal scrap stored in the vessel 22 can be uniformly preheated.

A plurality of ribs 22-1 may be formed on the inner surface of the vessel 22. The metal material stored in the vessel 22 is rotated so that the ribs 22- 1, the preheating efficiency of the metal scrap stored in the vessel 22 can be further maximized.

The lower rail 24 of the vessel is installed at an angle to the conveying unit 30 (that is, the conveying truck 31) at an angle and formed as a circular arc.

The bezel upper rail 25 is formed on the conveyance unit 30 in a circular arc shape with a predetermined angle larger than that of the vessel lower rail 24.

In addition, the vessel upper rail 25 is longer than the vessel lower rail 24 in the vertical direction.

The bezel upper wheel 26 is moved along a circumferential route along the vessel lower rail 24 and is coupled to the front surface of the storage frame 21. [

The lower frame 27 of the vessel is moved along a circumferential route along the upper rail 25 of the vessel and is coupled to the lower end of the storage frame 21.

The winch 28 draws the storage frame 21 by using a wire bound to the storage frame 21 so that the vessel 22 that is moved in conjunction with the storage frame 21 is turned upside down and the metal scrap is discharged . More specifically, the hoist 28 pulls the storage frame 21 upward and the storage frame 21 is transferred to the arc path along the vessel lower rail 24 and the vessel upper rail 25 As the storage frame 21 rotates forward, the vessel 22 is also turned forward while being turned upside down, so that the metal scrap stored in the vessel 22 is also discharged.

Meanwhile, the hoist 28 may be designed to pull the storage frame 21 in a descending direction so that the vessel 22 is in the home position (see FIG. 5).

The bezel rotation ring 29-1 is installed on the outer peripheral surface of the vessel 22 at a predetermined distance.

The bezel expansion joint pin 29-2 is provided between the bezel rotary ring 29-1 and the vessel 22 to elastically support the expansion and contraction of the vessel 22 according to the temperature change .

On the other hand, the roller 23 is brought into close contact with the bezel rotating ring 29-1 to rotate the vessel 22 in place.

The conveying unit 30 includes a vessel support unit 33 for supporting and rotating the vessel 22 and the vessel support unit 33 is mounted at the center of the lower surface of the vessel 22 Thereby preventing overturning of the vessel 22 during its rotation and supporting expansion and contraction due to temperature changes of the vessel 22,

The preheating unit 40 may include a preheating cover 41 and a preheating burner 42.

The preheating cover 41 is mounted on the upper surface of the vessel 22 to temporarily close the upper surface of the vessel 22 and to remove the metal scrap stored in the vessel 22 from the vessel 22 do.

The preheating burner 42 is installed in the preheating cover 41 and transfers the heat generated from the gaseous fuel to the metal scrap.

Meanwhile, a heat insulating material for maintaining the temperature may be installed between the inner and outer tubes of the vessel 22.

At this time, the insulating material may be made of a phase change material.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: Electric induction furnace
10: Feeding section
11: Feeding frame
12: Feeding suit
13: Feeding vibrator
20:
21: Storage frame
22: Vessel
22-1: rib
23: Rollers
24: lower rail of vessel
25: Bessel upper rail
26: upper wheel of vessel
27: lower wheel of the bezel
28: Winches
29-1: Bessel rotation ring
29-2: Vessel expansion joint pin
30:
31: Feed truck
32: Feed rail
33: Bessel thrust support device
40:
41: Preheating cover
42: Preheating burner
50:

Claims (7)

A feeding part (10) for feeding the metal scrap;
A storage unit 20 for storing metal scrap transferred from the feeding unit 10;
A transfer unit 30 for transferring the storage unit 20;
When the storage unit 20 is transferred to the vicinity by the transfer unit 30, the metal scrap temporarily connected to the storage unit 20 is preheated by the heat generated from the gaseous fuel A preheating portion 40; And
And a conveying part 50 for conveying the metal scraps discharged from the storage part 20 to the electric induction furnace 1 when the storage part 20 is transported to the vicinity by the conveying part 30,
The storage unit 20 includes a storage frame 21 inclined to the transfer unit 30, a vessel 22 for rotatably supporting the storage frame 21 and storing metal scrap, And a roller (23) for rotating the vessel (22) while the preheating chamber (40) preheats the metal scrap stored in the reservoir (20)
Wherein the conveying part (30) comprises a vessel-thrust supporting device (33) for rotating the vessel (22) in place.
The feeding unit (10) according to claim 1, wherein the feeding unit
A feeding frame 11,
A feeding chute 12 installed on the upper surface of the feeding frame 11 and storing scrap metal,
And a feeding oscillator (13) for applying vibration to the feeding chute (12) so that the metal scrap stored in the feeding chute (12) falls.

delete 2. The apparatus of claim 1, wherein the vessel (22)
And a plurality of ribs (22-1) protruding from the inner surface. 2. The apparatus of claim 1, wherein the storage unit (20)
A bezel lower rail 24 sloped at a predetermined angle to the conveying unit 30 and formed in an arc structure,
A bezel upper rail 25 formed in a circular arc shape and inclined at a predetermined angle wider than the vessel lower rail 24,
A vessel upper wheel 26 which is moved along the vessel lower rail 24 and is coupled to the front of the storage frame 21,
A lower wheel 27 of the vessel, which is moved along the upper rail 25 and is coupled to the lower end of the storage frame 21,
And a winch 28 for pulling the storage frame 21 using a wire bound to the storage frame 21 so that the vessel 22 that is moved in conjunction with the storage frame 21 is turned upside down and the metal scrap is discharged Preheating device for scrap metal.
2. The apparatus of claim 1, wherein the storage unit (20)
A bezel rotary ring 29-1 provided at a predetermined interval on the outer peripheral surface of the vessel 22,
And a plurality of vessel extending and contracting pins (29-2) installed between the vessel rotating ring (29-1) and the vessel (22).
2. The apparatus according to claim 1, wherein the preheating portion (40)
A preheating cover 41 mounted on the upper surface of the vessel 22,
And a preheating burner (42) installed in the preheating cover (41) for transferring the heat generated from the gaseous fuel to metal scrap.

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