KR200316733Y1 - Sand reclaimer - Google Patents

Abstract

The present invention relates to a wear part adjusting device of a foundry sand regeneration facility for regenerating waste foundry sand used as a mold in a foundry. The wear part that compensates for the wear degree of abrasion resistant parts can greatly extend the parts replacement cycle. To provide an adjusting device.

That is, in the present invention, the drive shaft 6 driven by the motor 5 is supported on the bearing 7 inside the drum-shaped main body 4 in which the supply hopper 2 and the discharge hopper 3 are provided up and down. And a rotating drum 9 to which the guide drum 8 is detachably coupled by the fixing screw 10 to the drive shaft 6, and the waste casting thread 11 moves on the outer periphery of the guide drum 8. A self-ring (Shelf Ring) 14 is placed in the self-holder 13 so that the space 12 is formed, and a Self 15 is formed in which the friction protrusions 15a are formed. In the foundry sand regeneration facility 1 in which the self-ring 14 and the self 15 are fixed by a clamp 17 fixed by 16, a protrusion 9a is formed on the inner circumference of the upper end of the rotating drum 9 A screw hole 9b is formed, and a protrusion 8a is formed at the outer periphery of the lower end of the guide drum 8 to fix the guide drum 8 such that the set screw 10 is positioned inside the rotating drum 9. A screw portion 13a is formed under the self holder 13 on which the self ring 14 and the self 15 are settled, and a nut fixed inside the main body 4 at the lower end of the screw portion 13a. (19) and the freely rotating fixing nut 20 to be fixed, by moving the self-holder 13 downward when the guide drum (8) and the self-ring 14 and the self (15) is worn to compensate for wear Therefore, the service life of the component can be prolonged significantly.

Description

Wear part adjusting device of foundry sand regeneration facility {SAND RECLAIMER}

The present invention relates to a wear part adjusting device of a foundry sand regeneration facility for regenerating waste foundry sand used as a mold in a casting plant, and more specifically, to compensate for this according to the wear level of wear resistant parts, thereby greatly extending the parts replacement cycle. To provide a wear adjustment device.

The waste foundry sand used as a mold in the foundry should be disposed of, but in recent years, since the foundry sand recycling facilities that can be recycled have been supplied, a considerable amount of used waste foundry sand is reused. Inside the drum-shaped main body where the hopper and the discharge hopper are installed, the drive shaft is rotated by the motor to support the bearing, and the guide drum composed of a material having excellent wear resistance can be decomposed by a fixing screw upward. The fixed drum is fixed so that the waste molding sand supplied from the supply hopper above the main body can be scattered.The self-holder is formed in the self-holder which protrudes inside the main body to form a space for the waste molding sand to move around the guide drum. Settle ring (Shelf Ring) and the upper side is inside The self-seal ring and the self-holding are fixed by clamping the self, which is formed with several friction protrusions. The conventional casting sand regeneration facility 1 as described above shows that as shown in Figs. The supplied waste casting sand 11 is moved toward the self 15 in a scattered state while being moved upward along the inner surface of the guide drum 8 by the rotational force of the rotating drum 9 which rotates while being coupled to the drive shaft 6. In this process, the waste casting sand 11 is hit by several friction protrusions 15a protruding into the inside of the shelf 15 so as to crush the tangled waste casting sand 11 and at the same time surround the outside of the waste casting sand 11. After being separated from the curing agent and the like is discharged into the space 12 formed between the guide drum 8 and the self-ring 14. At this time, wear of each component occurs due to the movement of the waste casting sand (11). That is, as shown, the upper end (a) of the guide drum (8) and the upper and inner end (b) of the self-ring 14 and the inner surface (c) of the shelf (15) and the outer surface (d) of the rotating drum (9) That is, the extreme wear phenomenon occurs in the fixing portion 10, the coupling portion for coupling the guide drum (8). Therefore, if each component is worn in the state as shown in Figure 6 the expensive guide drum (8) and self The ring 14 and the self 15 are simply fixed by the clamp 17 on the self holder 13 fixed to the main body 4 without any means of compensating for wear. There was a problem that takes a lot. In addition, the coupling structure of the rotating drum 9 and the guide drum 8 forms a projection 9a at the upper outer periphery of the rotating drum 9 to form several threaded holes 9b, and the guide drum 8 The protrusions 8a are formed on the inner periphery of the bottom) to be fitted to each other, and the fixing screws 10 are coupled to the screw holes 9b to fix the guide drum 8 as described above. When the outer surface (d) of the rotating drum (9) and the guide drum (8) is worn, the fixing force of the fixing screw 10 is lowered so that the guide drum (8) is not correctly fixed, driving becomes difficult and eventually wear There was a problem that the rotation drum (9) is less enough to replace.

The present inventors have devised the present invention to solve all the problems of the conventional foundry sand regeneration facility as described above. In other words, the present invention improves the coupling structure of the rotating drum and the guide drum, and at the same time self-selfing The self-holder which is fixed is combined with the nut which is coupled to the inside of the main body so that it can be lifted. By changing the position of the self and the self-ring according to the degree of wear when each component wears, the replacement part of each component can be compensated. By making it possible to extend significantly, the present invention has been completed with the technical problem of devising to reduce the cost of replacement of the component.

1 is a cross-sectional view showing a preferred embodiment of the present invention

2 is a cross-sectional view taken along the line A-A of FIG.

3 is an enlarged view of a portion B of FIG. 1 before wear

4 is an enlarged view of a portion B of FIG. 1 in a state in which a worn part is adjusted;

5 is a cross-sectional view of a conventional regeneration equipment extract main portion before wear.

Figure 6 is a state diagram worn as a conventional sectional view excerpts of the regeneration equipment

Explanation of symbols used in main part of drawing

1: Foundry sand recycling facility 2: Supply hopper

3: discharge hopper 4: main body

4a: frame 5: motor

6: Driving shaft 7: Bearing

8: Guide drum 8a, 9a: protrusion

9: rotating drum 9b: screwdriver

10: Fixing screw 11: Waste casting screw

12: Space 13: Self-holder

13a: thread 14: self-spring

DESCRIPTION OF SYMBOLS 15 Self: Friction protrusion 16: Fixing means 17: Clamp 18: Wear part adjusting device 19: Nut 20: Fixing nut

1 is a cross-sectional view showing a preferred embodiment of the present invention, Figure 2 is a cross-sectional view taken along the line AA of Figure 1, Figures 3, 4 is an enlarged view of the excerpt B of Figure 1, the present invention The configuration of the will be described. However, the same members as in the prior art used the same reference numerals to help understanding of the present invention.

The present invention bearing the drive shaft (6) rotated by the motor (5) by rolling the frame (4a) inside the drum-shaped body (4) where the supply hopper (2) and the discharge hopper (3) is provided on the upper and lower sides ( 7) the shaft is supported so that the guide drum (8) made of a material having excellent wear resistance upward on the drive shaft (6) to fix the rotating drum (9) detachably coupled by a set screw (10) (4) It is possible to scatter the waste casting sand (11) supplied from the upper side feed hopper (2), the self-holder (8) to the space around the guide drum (8) to form a space (12) to move the waste casting sand (11) 13, the self-ring (Shelf Ring) 14 is placed on the upper side of the inner side (Shelf; 15) formed with several friction protrusions (15a) is placed in the clamp (16) fixed by fixing means such as bolts ( 17) is actively designed to improve the foundry sand regeneration facility (1) in which the self-ring (14) and the self (15) is fixed.

The wear part adjusting device 18 of the foundry sand regeneration facility 1 to be provided in the present invention improves the coupling structure of the rotating drum 9 and the guide drum 8 as shown in FIGS. The self-holder 13 to which 14 and the self 15 are fixed is comprised so that lifting and lowering is possible.

That is, in the present invention, the protrusions 9a are formed on the upper inner circumference of the rotating drum 9 to form several threaded holes 9b, and the protrusions 8a are formed on the lower outer circumference of the guide drum 8, thereby mutually. Fit the fitting, the guide hole (8) is fixed by coupling the fixing screw (10) to the screw hole (9b).

A screw portion 13a is formed under the self holder 13 on which the self-ring 14 and the self 15 are settled. A nut fixed to the inside of the main body 4 is provided at the lower end of the screw portion 13a. (19) and the freely rotating fixing nut 20 by screwing in a double configuration.

At this time, the distance (D) between the upper surface of the fixing nut 20 and the upper end of the threaded portion (13a) is formed equal to or slightly higher than the height of the guide drum (8).

In the drawings, reference numeral 21 denotes a spacer SPACE, 22 denotes a repair hole formed in the main body 4 used when replacing the guide drum 8, the shelf 15, and the like. 22 shows a cover for sealing. And 24 is an air discharge hole for discharging the wind generated inside the body.

The wear part adjusting device 18 according to the present invention, configured as described above, has a service life of expensive components such as the guide drum 8 and the self-ring 14 and the self 15 which are consumable parts of the foundry sand regeneration facility 1. In order to greatly extend, the operation of the present invention will be described below. In other words, the above-described waste casting sand 11 is provided on the upper part of the main body 4 of the foundry sand regeneration facility 1 shown in FIG. When supplied to the hopper 2, the waste casting sand 11 is first gathered toward the edge of the rotating drum 9 by the centrifugal force of the rotating drum 9 while being supplied to the center of the rotating drum 9, and then the rotating drum 9 The cast iron 11 is scattered while moving upward along the guide drum 8 coupled to the upper side of the self-finished body 15 in which the friction protrusion 15a fixed to the self-holder 13 is formed inward. Is formed between the guide drum (8) and the self-ring (14) by its own weight It is dropped downward through the space 12 to be discharged and recycled to the discharge hopper 3 coupled to the lower side of the main body (4). At this time, each component is rubbed with the waste casting sand (11) in accordance with the movement of the waste casting sand (11). Abrasion is generated by the present invention, and according to the present invention, the protrusion 9a is formed at the upper inner circumference of the rotating drum 9 to form several screw holes 9b, and the lower outer circumference of the guide drum 8 is formed. Forming projections (8a) to form a mutual fit and the screw hole (9a) is coupled to the fixing screw 10 is configured to secure the guide drum (8), in the case of the fixing screw (10) Figure 3, Since it is located inside the waste casting yarn 11, which is primarily gathered to the edge side of the rotary drum (9) as shown in Figure 4 because there is no fear of abrasion because of the wear of the guide screw (10) 8) can be fixed to the problem that becomes uncertain And in the case of the self-holder 13 in which the self-ring 14 and the self 15 are settled, the screw portion 13a formed downward is freely rotated with the nut 19 fixed to the inside of the main body 4. It is fixed in a state that is screwed to the fixing nut 20 to the double, the upper end (a) and the upper and inner end (c) and the self (15) of the guide drum (8) which is the main wear part When the inner surface (b) and the outer surface (d) of the rotating drum (9) is worn, the cover 23 sealing the repair hole 22 is removed, and then the screw portion formed under the self-holder 13 When the self-holder 13 is rotated in a state in which the fixing nut 20 coupled to (13a) is dissociated, a distance D 'between the upper surface of the fixing nut 20 and the upper end of the screw portion 13a is shown in FIG. 4. As shown in the figure, the positions of the self 15 and the self ring 14 move downward while gradually decreasing, thereby making it possible to compensate for the space 12 enlarged by wear. It is possible to extend the replacement cycle of these components until the drum 8 is completely worn out. As described above, the position of the self 15 changes as the self holder 13 is moved downward. Since the inner side b of (15) is worn evenly rather than a part of it intensively, it is possible to extend the exchange period of the shelf (15).

As described above, the wear part adjusting device 18 of the foundry sand regeneration facility 1 provided by the present invention has a combination of a fixing screw 10 for fixing the guide drum 8 to the rotating drum 9. (9) The self-holder 13 to which the self-ring 14 and the self 15 are fixed may be made from the inside, and the fixing nut 20 freely rotating with the nut 19 fixed to the inside of the main body 4. According to the present invention, the space between the guide drum 8 and the self ring 14 due to abrasion of the guide drum 8 and the self-ring 14 and the self 15 is according to the present invention. Even if) is widened, it can be used until the guide drum 8 is completely worn by compensating the space 12 by moving the positions of the self-ring 14 and the self 15 downward so that the service life of the component can be greatly reduced. It can be extended and the cost can be saved by replacing components. An excellent devised.

Claims (1)

A drive shaft 6 driven by a motor 5 is axially installed in the drum-shaped main body 4 in which the supply hopper 2 and the discharge hopper 3 are provided up and down, and the guide shaft 8 is mounted on the drive shaft 6. ) Is fixed to the rotating drum (9) detachably coupled, and the self-ring (14) and the self-holder (13) on the outer periphery of the guide drum (8) to form a space (12) to move the waste casting sand (11) In the foundry sand regeneration facility (1) in which a stool (15) having several friction protrusions (15a) formed therein is fixed and fixed by a clamp (17), The protrusion 9a is formed at the upper inner circumference of the rotating drum 9 to form several screw holes 9b, and the protrusion 8a is formed at the lower circumferential edge of the guide drum 8 to fix the screw 10. Fixed to the guide drum (8) so that is located inside the rotary drum (9), A fixing nut which freely rotates with the nut 19 fixed to the inside of the main body 4 by forming a screw portion 13a at the lower side of the self holder 13 on which the self ring 14 and the self 15 are settled. Wearing part adjusting device of the foundry sand regeneration device, characterized in that fixed to 20.