KR100733905B1 - An attached mortar eliminator for recycled coarse aggregate using eccentric blade - Google Patents

Abstract

A machine for peeling off mortar from recycled coarse aggregate using eccentric blades is provided to improve quality of the recycled coarse aggregate by peeling off mortar adhered onto the surface of the recycled coarse aggregate, and mass produce recycled coarse aggregate with superior quality by improving a mortar peeling effect and preventing the recycled coarse aggregate from being crushed in the mortar peeling process. In a machine for peeling off mortar from recycled coarse aggregate, comprising: a concave(10) having an injection part(11) formed in an upper part thereof such that the recycled coarse aggregate produced through a crushing process of construction waste is injected into the injection part, and a discharge part(12) formed in a lower part thereof such that mortar peeled recycled coarse aggregate is discharged from the discharge part; a non-eccentric cone which is contained in the concave to form a peeling passage, and is rotated in the concave; blades(22) continuously arranged on an outer peripheral surface of the non-eccentric cone to peel off mortar of recycled coarse aggregate that is descending along the peeling passage; and a driving motor(30) for driving the non-eccentric cone, a non-eccentric machine(1) for peeling off mortar from recycled coarse aggregate using eccentric blades is characterized in that the blades are eccentrically and continuously arranged on the outer peripheral surface of the non-eccentric cone, guide portions are formed on one eccentric faces of the blades, and the non-eccentric cone is repeatedly rotated forwardly and reversely by power transmitted from the driving motor.

Description

Mortar peeler for regeneration coarse aggregate using eccentric blades {AN ATTACHED MORTAR ELIMINATOR FOR RECYCLED COARSE AGGREGATE USING ECCENTRIC BLADE}

1 is a cross-sectional view showing an embodiment of a mortar peeler for recycled coarse aggregate according to the present invention.

Figure 2 is a plan view showing a bonding state of the mortar peeler for the recycled coarse aggregate of the present invention.

3 is a cross-sectional view showing a part of the peeling passage enlarged.

Figure 4 is a cross-sectional view showing an enlarged portion of the installation state of the blade.

Explanation of symbols on the main parts of the drawings

10-Concave 11-Input

12-outlet 20-uneccentric cone

21-release passage 22-blade

23-Guide part 30-Drive motor

The present invention relates to a non-eccentric mortar peeler for recycled coarse aggregate using an eccentric blade, and more particularly, the quality of the recycled coarse aggregate by peeling mortar attached to the surface of the recycled coarse aggregate produced through the crushing process of construction waste It is invented to improve the.

In general, coarse aggregates are those with a diameter of 5 mm or more, and the standard specification for building construction by the Ministry of Construction and Transportation defines aggregates that do not pass more than 85% by weight ratio.

This is because 15% of margin is set because coarse aggregates are not completely sifted in the field and sometimes aggregates of 5 mm or less are included.

Coarse aggregates collected from nature are almost in a state of specialty. Currently, the use of crushed stone produced from quarries is used to meet the demands used in the concrete industry. However, it is difficult to collect aggregates due to environmental damage. .

On the other hand, construction wastes generated by construction work are suitable for use as recycled coarse aggregate in terms of eco-friendliness and recycling of resources.

In other words, it is preferable to use recycled coarse aggregates without reclaiming the construction wastes.In recent years, it is desirable to recycle resources.In recent years, these wastes are shredded to a certain size and recycled to recycled coarse aggregates. have.

However, the recycled coarse aggregate obtained through this process has a higher absorption rate than natural coarse aggregates due to mortar attached to the aggregate surface, and when used as concrete aggregates, problems such as workability, strength and durability of recycled aggregate concrete There was this.

Accordingly, an object of the present invention is to solve the above problems by peeling mortar adhered to the surface of the recycled coarse aggregate produced through the crushing process of construction waste to improve the quality of the coarse recycled aggregate.

An object of the present invention is to provide a mortar peeler for recycled coarse aggregate using eccentric blades to improve the quality of the recycled coarse aggregate by peeling the mortar of the surface of the recycled coarse aggregate.

Another object of the present invention is to provide a mortar peeling machine for regenerated coarse aggregate using eccentric blades to increase the mortar peeling effect of the coarse recycled aggregate and to prevent fracture of the coarse aggregate in the mortar peeling process.

Still another object of the present invention is to provide a mortar peeler for recycled coarse aggregate using eccentric blades, which can contribute to saving resources and generating profits of producers through mass production of recycled coarse aggregate of good quality.

The present invention for achieving the above object is a concave formed with an input portion is formed in the upper portion of the recycled coarse aggregate produced through the crushing process of the construction waste, the discharge outlet for discharging the coarse aggregate is peeled off mortar;

An uneccentric cone accommodated in the concave to form a peeling passage, and rotating inside the concave;

A blade which is arranged on the outer circumferential surface of the uneccentric cone and peels mortar of the regenerated coarse aggregate descending along the peeling passage;

In the configuration of the drive motor for driving the uneccentric cone,

The blade is arranged eccentrically and continuously on the outer circumferential surface of the uneccentric cone, the guide portion is formed on the eccentric surface of the blade, the uneccentric cone is achieved by repeating the forward and reverse rotation by the power transmitted from the drive motor .

Therefore, the mortar of the regenerated coarse aggregate descending along the peeling passage is peeled through the blades arranged in an eccentrically continuous manner to provide an eccentric coarse aggregate having excellent mortar quality.

In addition, the guide portion is formed in the eccentric portion of the blade, the non-eccentric cone repeats the forward and reverse rotation based on the power of the power motor, thereby increasing the mortar peeling effect of the coarse recycled aggregate, and at the same time regenerating the coarse The raw aggregates of the aggregates will be prevented from breaking or breaking.

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

1 is a cross-sectional view showing an embodiment of a regeneration coarse aggregate mortar peeler according to the present invention, it is shown that the drive motor in a state in which the uneccentric cone is accommodated inside the concave.

Figure 2 is a plan view showing a combined state of the mortar peeler for the recycled coarse aggregate according to the present invention, it is shown that the spiral blades are continuously arranged in an eccentric state on the outer circumferential surface of the uneccentric cone.

3 is a partially enlarged view of the peeling passage, and is shown in a cross-sectional view, and shows an enlarged view of an embodiment of the peeling passage formed between the concave and the uneccentric cone.

4 is a partially enlarged view of the installation state of the blade, showing that the blade is arranged in a position close to the inner surface of the concave.

That is, as shown in Figures 1 to 4, the mortar peeler for regeneration coarse aggregate 1 according to the present invention is largely composed of a concave 10 and an uneccentric cone 20.

The concave 10 is an empty portion in which the input portion 11 is supplied with the recycled coarse aggregate is formed in the hollow, the lower portion shows that the discharge portion 12 for discharging the coarse aggregate peeled off mortar is formed. have.

Therefore, the coarse aggregate of the construction wastes shredded through the shredder is transferred to the upper part of the concave 10 through a known conveying conveyor 2, and the inside of the concave 10 through the input part 11. It is supplied to the mortar is peeled off, the recycled coarse aggregate in which the mortar is peeled is discharged to the outside through the discharge portion (12).

In the inside of the concave 10 by applying a separate reinforcing plate 13 to minimize the deterioration of durability and stiffness of the concave 10 due to the frequent bumping of the recycled coarse aggregate in the peeling process of the recycled coarse aggregate It is good.

In addition, the outside of the outer case 14 to minimize the external emissions of the noise that is inevitably generated in the process of peeling the recycled coarse aggregate, the upper portion of the outer case 14 by combining the hopper 15 to reproduce the coarse aggregate Has been shown to be smoothly supplied to the input unit (11).

The inner end of the hopper 15 is preferably in close proximity to the separation passage 21 to be described later so that the recycled coarse aggregate is not separated to the outside in the supply process through the input portion (11).

The uneccentric cone 20 is spaced in the concave 10 to form a separation passage 21 for peeling the mortar of the recycled coarse aggregate, and is connected to the drive motor 30 driven by an external power source When power is transmitted from the drive motor 30 is rotated inside the concave 10.

The drive motor 30 is supported and fixed in all directions through the fixing piece 32 to the inside of the outer case 14, the shaft 31 of the upper end is shown to be inserted into the bottom of the non-eccentric cone 20. .

In addition, the inclination angle of the peeling passage 21 formed between the concave 10 and the uneccentric cone 20 by the uneccentric cone 20 is formed to have a range of 45 ° to 75 ° to remove the mortar. Recycled coarse aggregates are forced to descend at too fast or not too slow.

That is, the uneccentric cone 20 is received in the interior of the concave 10 in a state associated with the drive motor 30 to form a peeling passage 21 for substantially peeling off the mortar of the recycled coarse aggregate. The peeling passage 21 formed by the uneccentric cone 20 is shown to be inclined between 45 ° and 75 ° between the concave 10 and the uneccentric cone 20.

Here, the peeling mortar of the recycled coarse aggregate through the peeling passage 21 is the first two kinds of crushed coarse aggregate crushed, such as cement mortar on the surface of the two kinds of quality is not good compared to natural coarse aggregate Because it is coarse aggregate.

Therefore, in the present invention, the two kinds of coarse aggregates are introduced into the separation passage 21 formed between the concave 10 and the uneccentric cone 20, and the mortar adhering to the surface is substantially removed from the coarse aggregates. One type of coarse aggregate of the same quality is to be recycled.

The blade 22 is peeled off the mortar of the regenerated coarse aggregate descending along the separation passage 21 is arranged eccentrically continuous on the outer circumferential surface of the uneccentric cone 20 to peel off the mortar.

In particular, the blade 22 has been shown to be arranged continuously in a structure capable of gradually peeling off the mortar of the regenerated coarse aggregate descending along the separation passage 21 by widening the lower side than the upper side.

Here, the blade 22 is arranged eccentrically continuous on the outer circumferential surface of the non-eccentric cone 20, the mortar is not peeled off by the blade 22 in the peeling process of the recycled coarse aggregate, or the concave 10 and This is to prevent the raw aggregates of the coarse aggregate recycled between the blades 22 to be broken or broken.

That is, when the blades 22 are arranged in an uneccentric state, the concave 10 and the blades 22 are rotated by the rotation of the uneccentric cone 20 in the course of the regeneration coarse aggregate descending along the separation passage 21. There is a fear that the raw aggregates of coarse aggregates are broken or broken in between, as well as some recycled coarse aggregates can be discharged without being separated from the mortar while spinning in the separation passage.

This occurs equally even when a plurality of irregularities are used without using the blade 22, and there is a gap between the blade 22 and the blades 22 when the blade 22 or the irregularities are in an uneccentric state. Regeneration coarse aggregate is located in the bone to be formed so that the mortar can not be peeled off.

In addition, when the recycled coarse aggregate rides over the blades 22 in the lowering process, the raw aggregates of the coarse recycled aggregates are broken or broken between the concave 10 and the blades 22.

Therefore, in the present invention, it is shown that the blade 22 is continuously arranged on the outer circumferential surface of the uneccentric cone 20 in the eccentric state, and the guide portion 23 is formed on the eccentric portion of the blade 22. Regeneration coarse aggregate descending along the 21 is the mortar of the surface is peeled off by the blade 22 rotating along the uneccentric cone 20, of course, the coarse aggregate is located between the bone is the unbalanced cone 20 As it is rotated, the mortar is peeled off again on the blade 22 while moving along the guide part 23.

In addition, peeling of the mortar through the blade 22 can increase the efficiency by the non-eccentric cone 20 repeats the forward rotation and the reverse rotation along the drive motor 30.

This is because the blade 22 is arranged continuously in the state eccentric to the outer circumferential surface of the uneccentric cone 20, even if the guide portion 23 is formed on the eccentric portion, the uneccentric cone 20 is only in one direction. This is because, in the case of continuous rotation, the recycled coarse aggregate may eventually cross the guide portion 23 and be caught between the concave 10 and the blade 22.

Therefore, in the present invention, the non-eccentric cone 20 repeats the forward and reverse rotation based on the power of the driving motor 30, thereby guiding the eccentric portion of the blade 22 in the mortar peeling process of the recycled coarse aggregate. Part 23 is to prevent the regeneration coarse aggregate ride over.

As such, the rotation speed of the uneccentric cone 20 repeating the forward and reverse rotations is preferably maintained at 30 rpm to 50 rpm. If the rotation speed is 30 rpm or less, the recycled coarse aggregate descends before the mortar is peeled off. This is because it can be discharged to the outside.

On the contrary, when the rotational speed of the uneccentric cone 20 is 50 rpm or more, the operation and power consumption of the driving motor 30 may be burdened, and the production efficiency of the thick coarse aggregate may be lowered.

As described above, the blade 22 for peeling the mortar of the regenerated coarse aggregate has been shown to be spirally formed on the outer circumferential surface of the uneccentric cone 20 with a 15 ° to 45 ° curvature.

This extends the length of descent of the regenerated coarse aggregate descending along the separation passage 21 and at the same time slows down the rate of descent of the regenerated coarse aggregate to thereby increase the mortar peeling time.

In addition, when the blade 22 has a curvature of 15 ° or less, the lowering speed of the lowering speed cannot be greatly enjoyed. When the blade 22 has a curvature of 45 ° or more, the lowering of the regenerated coarse aggregate is delayed so that the stagnation between the separation passages 21 can occur. Since it may be a side effect that the production efficiency is rather deteriorated in the present invention is to provide a blade 22 to form a spiral having a curvature of 15 ° ~ 45 °.

On the other hand, the edge of the hopper 15 coupled to the upper portion of the outer case 14 to supply the coarse aggregate is shown that the injection nozzle 16 for injecting water is provided.

That is, by spraying water on the regenerated coarse aggregate supplied to the input unit 11 through the injection nozzle 16, it is possible to prevent the scattering of dust generated by the regeneration of the coarse aggregate, as well as to reproduce the coarse The surface of the aggregate contains moisture so that the mortar attached to the surface can be easily peeled off the blade 22.

Although not shown, this injection nozzle 16 is connected to a known faucet or water tank, etc., and it turns out that water is sprayed to the recycled coarse aggregate.

Here, looking at the mortar peeling process through the regeneration coarse aggregate mortar peeler (1) according to the present invention configured as follows in detail.

The recycled coarse aggregate supplied to the input unit 11 through the conveying conveyor 2 is lowered along the peeling passage 21 formed between the concave 10 and the uneccentric cone 20 and the uneccentric cone 20 ) Will repeat the forward and reverse rotation based on the power of the drive motor (30).

Therefore, the recycled coarse aggregate supplied to the peeling passage 21 is rotated together with the rotation of the uneccentric cone 20 to the outer circumferential surface of the inner reinforcing plate 13 and the uneccentric cone 20 of the concave 10. It is rubbed with eccentrically continuous blades 22, and furthermore, foreign matter adhering to the surface of the coarse aggregate is peeled off while friction is generated between the coarse aggregates.

In this peeling process, the recycled coarse aggregate is peeled off along the guide portion 23 of the blade 22 along the forward rotation and the reverse rotation of the uneccentric cone 20, and the blade 22 and the concave ( The minimum distance A of 10) is 20 mm to 24 mm to maintain the coarse aggregate between the blade 22 and the concave 10 even if the unexpectedly coarse aggregate crosses the guide part 23. To prevent them from getting caught.

The recycled coarse aggregate in which mortar is separated through this series of processes is discharged through the discharge unit 12 and then transported along the discharge conveyor 3 in the lower portion to be used as one type of coarse aggregate.

According to the configuration of the present invention as described above, by peeling the mortar of the regenerated coarse aggregate descending along the separation passage through the blades arranged eccentrically to the uneccentric cone, one type of coarse aggregate excellent in quality of mortar peeled Will be provided.

In addition, the guide portion is formed in the eccentric portion of the blade, the non-eccentric cone repeats the forward and reverse rotation based on the power of the power motor, thereby increasing the mortar peeling effect of the coarse recycled aggregate, and at the same time regenerating the coarse The raw aggregates of the aggregates can be prevented from being broken or broken.

Therefore, the present invention is a very useful invention, such as being able to contribute to the saving of resources and the profit generation of the producer through mass production of recycled coarse aggregate of good quality.

Claims (4)

Concave 10 is formed with an input portion 11 for the input of the recycled coarse aggregate produced through the crushing process of the construction waste, the discharge portion 12 is discharged to discharge the recycled coarse aggregate in which the mortar is peeled off Wow; An eccentric cone (20) accommodated in the concave (10) to form a peeling passage (21), which rotates in the concave (10); A blade 22 continuously arranged on the outer circumferential surface of the uneccentric cone 20 to peel mortar of the regenerated coarse aggregate descending along the peeling passage 21; In the regeneration coarse aggregate mortar peeler consisting of a drive motor 30 for driving the uneccentric cone 20, The blade 22 is continuously arranged eccentrically on the outer circumferential surface of the uneccentric cone 20, the guide portion 23 is formed on the eccentric surface of the blade 22, the uneccentric cone 20 is a drive motor The non-eccentric mortar peeler for regeneration coarse aggregate using eccentric blades, characterized in that for repeating the forward and reverse rotation by the power transmitted from (30). The method of claim 1, wherein the blade 22 has a 15 ° ~ 45 ° curvature, the eccentric mortar stripper for regeneration coarse aggregate using eccentric blades, characterized in that formed in a spiral. The eccentric mortar stripper for regeneration coarse aggregate using eccentric blades of claim 1, wherein the rotational speed of the eccentric cone 20 is 30 rpm to 40 rpm. The method according to claim 1, wherein the minimum distance (A) of the blade 22 and the concave 10 is 20mm ~ 24mm, peeling passage formed between the concave 10 and the uneccentric cone 20 ( 21), the inclination angle is 45 ° ~ 75 °, eccentric mortar peeler for regeneration coarse aggregate using eccentric blades.

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